1360596 六、發明說明: 【發明所屬之技術領域】 本發明,是有關於洗衣機、及從洗衣進行直到乾燥爲 止的洗衣乾衣機。 【先前技術】 洗衣機、及從洗衣進行直到乾燥爲止的洗衣乾衣機, 是倂用在洗衣運轉中將洗衣水由循環泵吸起並對於洗衣槽 內被洗衣的洗衣物上進行沖洗的方式。 此沖洗的方式,是例如日本特開2007-282934號公報 (專利文獻1 )。 [專利文獻1]日本特開2007-282934號公報 【發明內容】 (本發明所欲解決的課題) 洗衣水的節水化中,藉由採用對於露出於洗衣水的水 面的洗衣物上將洗衣水散布的沖洗方式(專利文獻1), 就可以在內槽從中央橫跨外周廣範圍地將洗衣水散布。 本發明目的是提供一種洗衣機,使用專利文獻1所示 的沖洗方式使洗衣水的散布在內槽從中央及於外周的廣範 圍不遺漏且均一地進行。 (用以解決課題的手段) 本發明是一種洗衣機,具有:洗衣水和清洗水滯留的 1360596 外槽;及收納洗衣物,在前述外槽可旋轉自如地被內置的 縱設置的內槽;及設在前述內槽的上方,將洗衣水或是清 洗水從洗衣物的上方散布的沖洗口;及將滯留於前述外槽 的洗衣水或是清洗水吸起並供給至沖洗口的循環泵;藉由 在前述沖洗口繞轉使洗衣水或清洗水散布,其特徵爲:使 藉由前述循環泵供給至前述沖洗口的供給水量的增減不停 地返覆。 [發明的效果] 依據本發明,使藉由循環泵供給至前述沖洗口的供給 水量的增減不停地返覆,就可以使洗衣水的散布在內槽從 中央及於外周的廣範圍不遺漏且均一地進行。 【實施方式】 對於本發明的實施例,引用第1圖〜第60圖進行說 明。 首先,引用第1圖,說明洗衣乾衣機的槪要。 洗衣乾衣機的外框1,是將貯留洗衣水的外槽2內置 。外槽2是被防振支撐於外框1。收納又洗淨又乾燥洗衣 物的洗衣脫水槽(內槽)3,是可旋轉自如地被支撐於外 槽2內。 將洗衣物攪拌洗淨的攪拌翼4,是在內槽3可轉動自 如地被內置。在洗衣運轉時、及乾燥運轉時中,攪拌翼4 返覆正轉/反轉。在脫水運轉時中,攪拌翼4是與內槽3 -5- 1360596 一起高速旋轉,使被包含於內槽3內的洗衣物的水分被脫 水。 洗衣乾燥用驅動馬達10,是進行攪拌翼4、及內槽3 的旋轉驅動。洗衣乾燥用驅動馬達10,是使用DC無電刷 馬達。此DC無電刷馬達,是被進行向量控制。 外蓋5是可開閉自如地被設於位於外框1上部的頂蓋 6。在外槽2的上部,內蓋34是可開閉自如地被設置。將 外蓋5、及內蓋34打開進行內槽3內洗衣物的出入。 頂蓋6,是在前側具有給水盒(無圖示)。給水盒, 是將水道水、洗澡水供給至外槽2。洗劑、精整劑的投入 裝置35,是位於頂蓋6的前側。洗劑、精整劑的投入是 藉由投入管36,被注入外槽2及內槽3之間。 給水閥7是設於頂蓋6的後部。給水閥7的流入連接 部8’是貫通頂蓋6朝上方突出。在此突出的流入連接部 8連接有水道管(無圖示)。給水閥7的吐出口側,是在 此隔著被連接的給水管30與之前的給水盒連通連接。給 水盒的落下口,是朝向外槽2及內槽3之間。 吸起洗澡水的洗澡水泵(無圖示)也被內置在頂蓋6 的後部。洗澡水泵,是連接有延伸至洗澡爲止的吸入管。 在吸入管的前端,具備將後述的洗澡水除菌用的洗澡水除 菌裝置。 乾燥機構9’是進行將內槽3內的洗衣物乾燥的乾燥 用空氣的循環送風和除濕。此乾燥機構9大部分是被乾燥 用空氣循環路佔據。 -6- 1360596 乾燥用空氣循環路’是具有:與外槽2的底部連通的 方式被連接的底部循環路20'從底部循環路20上昇的除 濕用縱通路21、與除濕用縱通路21的上側連通的方式被 連接的暖風組件22。暖風組件22,是詳細如後述的送風 風扇、加熱器24。暖風組件22的吸入側,是連接於除濕 用縱通路21的上側,排出側是與返回連接循環路25連通 的方式被連接。 返回連接循環路25,是具有上部蛇腹管23,隔著此 上部蛇腹管23與外槽2的上部連通的方式被連接。底部 循環路20也具有下部蛇腹管26,隔著此下部蛇腹管26 與外槽2的底部連通的方式被連接。 除濕用縱通路21,是將後述的除濕領域內置。除濕 領域是在除濕用縱通路21內朝縱延伸。由供給至此除濕 領域的洗澡水和水道水將沿著除濕用縱通路2 1上昇的乾 燥用空氣被冷卻,使被包含於乾燥用空氣中的水分被奪取 〇 藉由暖風組件22的送風風扇29,使通過乾燥用空氣 循環路的乾燥用空氣在內槽3內流通,將內槽3內的洗衣 物乾燥。因爲藉由暖風組件22的加熱器,將在除濕領域 水分被脫去的乾燥用空氣再加熱並朝內槽3流動,所以可 將洗衣物的水分除去。此水分除去是藉由乾燥用空氣的循 環被反覆進行,使洗衣物良好地被乾燥。 下部蛇腹管26及外槽2的底落入部31,是隔著下部 連通管41與洗衣水排水路42及洗衣水循環水路43連通 1360596 。洗衣水排水路42是隔著排水閥44與下部連通管41連 通,洗衣水循環水路43是隔著循環泵45及異物除去防臭 閥32與下部連通管41連通。 在洗衣運轉時和乾燥運轉時,排水閥44爲關閉。在 將洗衣水排水的排水時和乾燥運轉時,將排水閥44打開 並將滯留於外槽2的洗衣水和清洗水朝洗衣乾衣機的外部 排水。 循環泵45的吸入側,是與異物除去防臭閥32連通的 方式被連接。循環泵45的吐出側是與洗衣水循環水路43 連通的方式被連接。與洗衣水循環水路43的前方連接的 洗衣水循環水縱水路46,是沿著外槽2的外側面上昇, 延伸直到內槽3的上側爲止,設在內槽3的上側並與洗衣 線屑除去裝置33連通的方式被連接。 滯留於外槽2的洗衣水和清洗水,是由循環泵45被 吸起,流動於洗衣水循環水縱水路4 6從洗衣線屑除去裝 置33散布至內槽3的方式注入。因爲在此循環泵45所產 生的散布注水沿續的情況下進行洗衣和清洗,所以可以由 少水量良好地進行洗衣'清洗。 水位感測器47,是將滯留於外槽2的洗衣水和清洗 水的水位檢出》在外槽2在底部附近設置空氣防臭閥50 ,設置與此空氣防臭閥連通的方式連接的空氣管49。在 此空氣管49的上端是與水位感測器47連通的方式被連接 。將外槽2內的水位變動由水位感測器4 7感知進行水位 檢出。 -8- 1360596 接著有關本發明的各特徵,引用圖進行說明。 首先,引用第4圖〜第11圖對於乾燥機構、除濕手 段、棉絨除去進行說明。 將乾燥機構9的大部分佔據的乾燥用空氣循環路是具 有除濕用縱通路21。此除濕用縱通路21,是如第5圖所 示,在除濕領域70具有被包含於除濕手段中的冷卻鰭片 72。除濕領域70,是從除濕用縱通路21的途中及於橫跨 上部的範圍。除濕領域70的下端,是洗衣水是高水位( 洗衣量多時)的液位。 除濕手段的冷卻鰭片72,是由不鏽鋼和鋁等的熱傳 導性佳的金屬材料形成。且,冷卻鰭片是與除濕用縱通路 2 1相同由合成樹脂一體形成也可以。冷卻鰭片72是比除 濕用縱通路21的內壁面突出的方式被立設。除濕用縱通 路21中從下往上流動的乾燥用空氣是一邊觸摸此冷卻鰭 片72 —邊上昇的方式進行除濕。 冷卻水的供給連接口 80,是設於除濕用縱通路21。 在此供給連接口 8 0中,被連接有可供給水道水和由洗澡 水泵吸起的洗澡水用的冷卻水管。冷卻水是通過供給連接 口 80,一邊接觸冷卻鰭片72 —邊沿著除濕用縱通路21 下降。在此從下沿著除濕用縱通路21上昇的乾燥用空氣 是與冷卻水和冷卻鰭片72接觸並被冷卻,使被包含於乾 燥用空氣中的水分被奪取。 洗淨水的供給連接口 8 1,是鄰接於冷卻水的供給連 接口 80 »在此供給連接口 8 1中,被連接有可供給水道水 -9- 1360596 和洗澡水泵吸起的洗澡水用的洗淨水冷卻水供給管。洗淨 水是通過洗淨水供給連接口 81,一邊與冷卻鰭片72接觸 —邊沿著除濕用縱通路21下降。附著於冷卻鰭片72和除 濕用縱通路21的內壁面的線屑和布屑等,是藉由洗淨水 流被除去。 消泡噴嘴82是設於除濕用縱通路21的上部。消泡噴 嘴82的前端是被設成傾斜向下。在消泡噴嘴82中消泡水 供給管83被連接。消泡水供給管83雖未圖示,但是與洗 衣水循環水縱水路46連通的方式被連接。在洗衣運轉和 清洗運轉中藉由消泡噴嘴82使消泡水被散布。 藉由此消泡水,在洗衣運轉和清洗運轉中沿著除濕用 縱通路21上昇的洗劑泡被消去。使一邊沿著除濕用縱通 路21上昇一邊使增加的洗劑泡被消去。 除濕用縱通路21,是具有橫剖面爲長方形的形狀。 使除濕用縱通路21前後方向的寬度較窄,橫方向的寬度 較寬的形狀的理由,是因爲除濕用縱通路21的配置關係 。除濕用縱通路21,是在洗衣乾衣機的後側,被設置於 外槽2及外框1之間。因爲洗衣乾衣機的後側是只有外槽 2及外框1之間的空間寬度而狹窄,所以除濕用縱通路2 1 成爲上述的形狀。 又,外框1雖是四角形,但在4隅中因爲設有將外槽 2垂下的吊棒,所以除濕用縱通路21是配置於洗衣乾衣 機的後側。 上述形狀的除濕用縱通路21,是在上方具有擴張風 -10- 1360596 路部84。擴張風路部84是從除濕用縱通路21的2/3程度 使上方部位在橫方向的寬度朝一方擴張形成。除濕用縱通 路21的上端橫方向寬度,是下端橫方向寬度的2倍程度 。且,擴張風路部84是成爲朝向上方橫寬度擴大的傾斜 形狀。 除濕用縱通路21的上端,是在擴張風路部84的上部 位具有讓乾燥用空氣流出用的乾燥用空氣出口 86,在除 了擴張風路部84的其他的部位具有冷卻水的流下部85。 從冷卻水供給連接口 80供給的冷卻水,是從流下部85流 下,順著冷卻鰭片72沿著除濕用縱通路2 1下降。 乾燥用空氣,是沿著除濕用縱通路2 1從下朝上流動 ,在擴張風路部84停止與冷卻水的接觸,朝向暖風組件 22和後述的乾燥過濾器流去。 藉由擴張風路部84,可以抑制冷卻水的水滴流入暖 風組件22和乾燥過濾器。 即,不設置擴張風路部84,而在冷卻水的流下部85 設置乾燥用空氣出口 86的話,從流下部85流下並被冷卻 鰭片72飛濺的冷卻水的水滴是具有乘著乾燥用空氣流入 暖風組件22和乾燥過濾器的可能性。 但是,藉由設置擴張風路部84,將除濕用縱通路21 從下往上昇的乾燥用空氣,是在擴張風路部84停止與冷 卻水接觸。因此,乾燥用空氣會在從流下部85流下的冷 卻水通過被冷卻鰭片72飛濺處之前偏離。 且,除濕用縱通路21的流路剖面積,當擴張風路部 -11 - 1360596 84的存在時是比下方的擴張風路部84不存在時更大。因 此,乾燥用空氣的流動成爲更緩和,就不具有將冷卻水的 水滴搬運的威勢(力量)。 如此,藉由設置擴張風路部84,乾燥用空氣因爲成 爲不會載著冷卻水的水滴搬運,所以可以抑制冷卻水的水 滴流入暖風組件22及乾燥過濾器。 且,在洗衣運轉和清洗運轉中,即使藉由消泡噴嘴 82的消泡不充分使洗劑泡沿著除濕用縱通路21上昇,除 濕用縱通路21因爲是在擴張風路部84擴大流路剖面積, 所以在此抑制洗劑泡的上昇。由此,可事先預防洗劑泡流 入暖風組件22和乾燥過濾器的問題。 除濕用縱通路21,是如第5圖、第7圖所示,具有 棉絨除去窗90。此棉絨除去用窗90,是設在面對於外框 1的擴張風路部84。窗用蓋91是可裝卸自如地設於棉絨 除去用窗90。藉由固定螺栓92使窗用蓋91被旋緊固定 外框1,是如第8圖、第9圖、第10圖、第11圖所 示,在與棉絨除去窗90相面對的位置具有外窗93。外用 蓋94是可裝卸自如地設於外窗93。藉由外固定螺栓95’ 外用蓋94是被旋緊固定。外窗93的外周圍’是如第9圖 所示,比窗用蓋91的外周圍更大。 在乾燥運轉中,乾燥用空氣是循環於除濕用縱通路 21。乘著乾燥用空氣循環的線屑等的棉絨是由後述的乾燥 過濾器被捕集,也滯留於乾燥用空氣的流動緩和的擴張風 -12- 1360596 路部84內。 滯留於此擴張風路部84內的棉絨是除去較佳。將 固定螺栓95鬆緩,將外用蓋94取下,將固定螺栓92 緩,將窗用蓋91取下。且,從外窗93、棉絨除去窗 將手放入將滯留於擴張風路部84內的棉絨除去。藉由 窗用蓋91安裝,將固定螺栓92旋緊,將外窗93安裝 將外固定螺栓95旋緊,就完成滯留於擴張風路部84內 棉絨的除去的維修。 如此,滯留於擴張風路部84內的棉絨的除去,是 由將外用蓋94、窗用蓋91取下,就可以從洗衣乾衣機 外框1的外側簡單且容易地進行維修。且,外窗93的 周圍因爲是比窗用蓋91的外周圍更大,所以可以將窗 蓋91透過外窗93取出外框1之外。因爲可以將窗用 9 1完全地取下所以棉絨的除去掃除可以容易進行。 有關乾燥過濾器(乾燥過濾器裝置),引用第15 〜第2 1圖進行說明。 乾燥過濾器(乾燥過濾器裝置)100,是位在乾燥 構9的乾燥用空氣循環路之間。乾燥過濾器(乾燥過濾 裝置)100是作爲將流通於乾燥用空氣循環路的乾燥用 氣所搬運的棉絨捕集除去用的乾燥棉絨除去手段功能。 濕用縱通路21的乾燥用空氣出口 86及暖風組件22的 流側(吸入側)之間設有乾燥過濾器裝置1 〇〇。 乾燥過濾器裝置1〇〇,是如第15圖所示,具有: 體框體101、及可朝本體框體101拉出/壓入自如的乾燥 外 鬆 90 將 9 的 藉 的 外 用 蓋 |,ort 圖 機 器 空 除 上 本 過 -13- 1360596 濾器框體102。乾燥過濾器框體102,是具有前側框部 103及過濾器框部104。過濾器框部104,是在後部具有 乾燥用空氣流入的流入口 106,在上面具有將棉絨具捕集 用的過濾器107。 前側框部103的前面操作盤108,是在下部具有缺口 形狀的把手109。將此把手109挾住,將乾燥過濾器框體 102朝本體框體101出入。 乾燥過濾器框體1 02,是在前側框部1 0 3的兩側面設 置脫落止手段110。由脫落止手段110將被壓入裝設於本 體框體101的乾燥過濾器框體102以不會脫出的方式保持 〇 脫落止手段110,是如第16圖、第17圖、第18圖 、第20圖所示,具有由橡膠製作的止滑構件111、按壓 銷112、固定構件113。止滑構件111,是在前側具有球 狀的頭部114,在後側具有外周環狀的鍔115,且具有從 後側向朝前側凹陷的凹1 1 6。 固定構件113,是在中央具有將按壓銷112的後部承 接用的擋止部117,在外周側具有一對的卡止爪118。 前側框部103,是如第17圖、第21圖所示,在兩側 面具有讓止滑構件111的頭部114嵌入用的貫通孔119, 且具有供固定構件113的卡止爪118卡合用的一對的卡合 溝120。一對的卡合溝120是以貫通孔119爲中心配置並 形成圓弧形狀。 卡合溝120’是如第21圖所示,具有貫通溝部及非 -14- 1360596 貫通溝部。貫通溝部’是讓固定構件113的卡止爪118可 以插入程度的大小。將卡止爪118卡合在殘留的非貫通溝 部。非貫通溝部的溝深度,是使卡合的卡止爪118不會從 卡合溝120露出的程度’或些微露出的程度較佳(第18 圖)。 脫落止手段110的組裝,是如第19圖所示,從前側 框部103的內側進行。將止滑構件1H從頭部114朝貫通 孔119插入。接著,將按壓銷112插入止滑構件111的凹 116之後進行固定構件113的安裝。固定構件113,是將 卡止爪118插入卡合溝120的貫通溝部之後,藉由扭轉使 卡止爪118坐上卡合溝120的非貫通溝部的方式進行卡合 安裝。 其次,在乾燥過濾器框體102被壓入裝設於本體框體 101的狀態下,比乾燥過濾器框體102的側面突出的止滑 構件111是按壓於本體框體101的內壁面。止滑構件111 是由橡膠的彈性變形將頭部114扭曲按壓。由此彈性變形 所產生的橡膠的摩擦力,使止滑作用強力作動,保持乾燥 過濾器框體102使不會從本體框體101脫出。 且,因爲止滑構件111,是藉由按壓銷112從內側押 壓,所以頭部114是被強力按壓在本體框體101的內壁面 ,鞏由強力的摩擦所產生的止滑作用被維持。因此,即使 在洗衣乾衣機的運轉振動等,仍不會產生乾燥過濾器框體 102的裝設被鬆開及脫落。 進一步,乾燥過濾器框體102的裝設保持,是由止滑 -15- 1360596 構件111的摩擦的止滑作用所產生。因此,因爲藉由乾燥 過濾器框體102的拉出/壓入操作將乾燥過濾器框體102 裝卸,所以與轉動操作所隨著的機械的挾持機構不同,裝 卸操作容易。 且,脫落止手段110,因爲只藉由將止滑構件111、 按壓銷112插入並將固定構件113的卡止爪118插入卡合 溝1 20的方式組裝,所以組裝簡單。 進一步,卡合於卡合溝120的卡止爪118,是不會從 卡合溝120露出的程度,或是些微露出的程度。因此,止 滑構件111的頭部114即使被變形壓壞,卡止爪118也不 會與本體框體101的內壁面抵接,由止滑構件111的頭部 114所產生的強力的摩擦的止滑作用被維持。 又,上述實施例,雖是將脫落止手段110設在乾燥過 濾器框體102,將脫落止手段110的止滑構件111滑接在 本體框體101的內壁面,但是將脫落止手段110置換成本 體框體101也可以。即,止滑構件111是滑接於本體框體 101及乾燥過濾器框體102互對面移動的一方的相對面( 例如本體框體101的內壁面)的構成的話,就可以實現乾 燥過濾器框體102的止脫。 有關暖風組件,引用第12圖、第13圖、第14圖進 行說明。 暖風組件22,是具有:表側組件殼200、及背側組件 殼201、及送風風扇202、及加熱用的加熱器24。將表側 組件殻200及背側組件殼20 1組合形成組件殼。在此組件 -16- 1360596 殼的內部設有送風風扇202、加熱用的加熱器24。此加熱 器24是使用PTC熱敏電阻。呈棒狀的長的PTC熱敏電阻 的加熱器24,是橫跨整體均一地發熱’與多數的鰭片接 觸並加熱來自送風風扇202的送風。 表側組件殼200及背側組件殼201 ’是具有:將送風 風扇202內置的外殼部204、及將加熱器24內置的加熱 器室205。送風風扇202是渦輪形風扇朝P箭頭方向高速 旋轉。渦輪形風扇的翼212,是具有圓弧形狀,12枚的翼 212是呈等間距配置。送風風扇2 02,是由電動機驅動。 將送風風扇202及電動機合併稱爲電動送風機。 表側組件殼200,是具有:吸入口 206、及排出口 207。吸入口 206,是在相面對於送風風扇202的吸入側 中央的方式位於外殼部204的中央。排出口 207,是配置 於成爲加熱器24的下流側的加熱器室205的位置。 吸入口 20 6,是隔著乾燥過濾器(乾燥過濾器裝置) 100與除濕用縱通路21連通。排出口 207是與乾燥用空 氣循環路的連接循環路25連通。 外殼部204,是具有吐出口 20 8。吐出口 208是對於 送風風扇202的旋轉方向,具有成爲後側的後側端部209 及成爲前側的前側端部(鼻部)2 1 0。後側端部2 0 9是接 近送風風扇202的外周。後側端部209是從送風風扇202 的外周分離。因此,外殼部204內周及送風風扇202外周 的間隙,是成爲從後側端部2 09朝向鼻部210漸漸地擴大 的漸開線的形狀。 -17- 1360596 藉由送風風扇202的旋轉從吐出口 208吐出的流量分 布,是成爲後側端部2 09較多,鼻部210較少的不均一的 狀態。在此,爲了使流量分布均一地接近,在後側端部 209側中設有朝向鼻部210使吐出口 208變窄的方式突出 的隆起部211。隆起部211,是位於後側端部209及加熱 器24的一端部之間,相面對於後側端部209的中央是形 成較高隆起的形狀。 如此,在吐出口 2 08中,藉由在位於鼻部210的相反 側的後側端部209設置朝向鼻部210使吐出口 208變窄的 方式突出的隆起部211,因爲使朝加熱器24的送風分布 是後側端部209及鼻部210皆均一地接近,所以加熱器 24的加熱範圍是整體均一,乾燥空氣的加熱是良好地被 進行。 有關静電除去,引用第22圖〜第28圖進行說明。 在外槽2的上端線部被安裝支撐的外槽上蓋3〇〇,是 具有:環狀的蓋部301、及半圓狀的蓋部3 02。環狀的蓋 部30 1’是除了後部,將外槽2及內槽3的前部上側覆蓋 。半圓狀的蓋部3 02,是將外槽2及內槽3的後部上側覆 蓋。環狀的蓋部30 1,是在內周側大開口成爲洗衣物的出 入口 303。此出入口 303,是藉由前述內蓋34被打開關閉 〇 環狀的蓋部301及半圓狀的蓋部302,是使用SPS( 合成樹脂)材料一體形成》習知是將蓋部301及蓋部302 由不鏽鋼鋼板的沖床製品形成。因爲其爲SPS (合成樹脂 -18- 1360596 )材料的成形品,所以生產性更提高,且也成 低化。且’因爲SPS (合成樹脂)材料成形性 性優異所以可耐乾燥運轉的高溫度。 內蓋34,是在外槽上蓋300由鉸鏈304 開閉自如。內蓋34,是由不鏽鋼鋼板製作的補 ’由合成樹脂形成的套蓋306,具有由耐熱玻 明窗307。套蓋3 06及補強框架305,是由螺 緊結合,透明窗307是被套蓋306及補強框架 由金屬(不鏽鋼)或是通電的材料製作的 的簧片構件309的一端,是如第26圖、第28 套蓋306的轂部310與由螺栓317結合被的補 —起被旋緊。簧片構件309的另一端是在簧片 由簧片用螺栓312被旋緊結合。簧片用螺栓3 金屬(不鎌鋼)或是通電的材料。 薄板小片的導電橡膠構件313,是設在配 蓋300的鉸鏈3 04附近。如第25圖、第27圖 橡膠構件313、及簧片用螺栓312是設在位於1 轉動軸314附近。因此,如第27圖、第28圖 34是被打開時,簧片用螺栓312是從導電橡 分離。其是藉由將內蓋34關閉,如第25圖、 示,簧片用螺栓312的頭部是與導電橡膠構件 電連接。 由金屬(不鏽鋼)或是通電的材料製作的 片構件315的一端是與導電橡膠構件313連接 爲重量的減 優異且耐熱 被支撐成可 強框架3 0 5 璃製作的透 栓308被旋 305挾持。 静電除去用 圖所示,在 強框架305 用轂部311 12,是使用 置有外槽上 所示,導電 絞鏈304的 所示,內蓋 膠構件313 第26圖所 313抵接並 外部用的簧 ,與導電橡 -19- 1360596 膠構件313 —起被固定於外槽上蓋3 00。在簧片構件315 的另一端設有連接終端316,經過此連接終端316接地於 外框1。 在乾燥運轉中由攪拌翼4攪拌,在內槽3內繞轉,帶 靜電的洗衣物是與內蓋34接觸的話,其静電是經由內蓋 34、簧片構件309、簧片用螺栓312、導電橡膠構件313 、簧片構件315朝外框1被放電。 藉由如此的放電,在乾燥運轉中的洗衣物所帶有的静 電因爲被除電,所以可以消解在乾燥運轉後將洗衣物取出 時的電擊。 上述的除電機構,是使將設在內蓋 34的簧片構件 309停止的簧片用螺栓312設在鉸鏈304的轉動軸314的 附近,使依據內蓋34的開閉使簧片用螺栓312的頭部離 合的導電橡膠構件313設在外槽上蓋3 00。 此構成,是與將內蓋側及外槽上蓋側由導線連接者不 同,不會產生由隨著內蓋的打開關閉的導線的返覆彎曲所 產生的損傷。且簧片用螺栓312、及導電橡膠構件313因 爲是設在鉸鏈304的轉動軸314的附近,所以與設在遠離 鉸鏈3 04者不同,不露出外部。因此,洗衣物的出入時, 洗衣物不會因接觸簧片用螺栓312和導電橡膠構件313而 損傷。 有關洗澡水除菌裝置,引用第29圖〜第32圖進行說 明。 洗澡水除菌裝置400,是與從洗澡水泵(無圖示)延 -20- 1360596 伸的吸入管的前端連接。在洗衣乾衣機中,因爲是透過洗 澡水除菌裝置400吸入洗澡水,所以可以由被除菌的洗澡 水進行清潔的洗衣。 洗澡水除菌裝置400,是具有:除菌卡匣401、上流 側異物除去過濾器402、下流側異物除去過濾器403、吸 入帽404、過濾器按壓405、本體錘406。本體錘406是 由會沈入水的重的材料製作,在後部中螺入結合有吸入管 ’在前側螺入結合有吸入帽404。且,在吸入帽404內收 納有:除菌卡匣401、上流側異物除去過濾器402、下流 側異物除去過濾器403、過濾器按壓405。 除菌卡匣40 1,是具有:由合成樹脂製作的圓筒體 407、及堵塞於圓筒體407的內部的粒狀的殺菌劑(無圖 示)、及將粒狀的殺菌劑關入的合成樹脂的卡匣蓋408。 圓筒體407,是在內側中央具有內含多數的通水孔(比粒 狀的殺菌劑的粒徑小的通水孔)的分隔部409。 在此分隔部409,圓筒體407的內部是在軸方向被分 隔成二室。分隔部409是與圓筒體407 —體形成。分隔部 409,是具有多數的通水孔(比粒狀的殺菌劑的粒徑小的 通水孔)。 在二室中設有從分隔部4〇9延伸直到圓筒體407的口 緣部附近爲止的複數支柱410。且,複數支柱410,是在 分隔部409的中央設置1根,在周圍設置4根。但設置更 多的根數也可以。 卡匣蓋4 0 8是具有多數的通水孔(比粒狀的殺菌劑的 -21 - 1360596 粒徑小的通水孔),外周是與圓筒體407的內側嵌合。卡 匣蓋408被嵌入的話由複數支柱410的前端承接。且卡匣 蓋408是藉由不能簡單地脫落的方式被卡匣蓋的卡合手段 卡止。 除菌卡匣401,當實施除菌時,粒狀的殺菌劑被充塡 ,成爲由卡匣蓋408及分隔部409被區劃。卡匣蓋408的 外面側是成爲洗澡水流入除菌卡匣的除菌卡匣的上流側端 面。分隔部409的外面側是成爲從除菌卡匣被除菌的洗澡 水流出的除菌卡匣的下流側端面。 其次,通過吸入帽4 04的通水孔,進入洗澡水除菌裝 置4 00內的洗澡水,是由上流側異物除去過濾器402被異 物除去,且由除菌卡匣40 1的粒狀的殺菌劑被除菌。且, 由下流側異物除去過濾器403進一步除去異物使無異物的 被除菌的洗澡水可以提供至洗衣乾衣機。 上流側異物除去過濾器402,因爲是被挾持設置在卡 匣蓋408及吸入帽404的前側內部之間,所以該狀態被保 持。因此,因爲位置不會偏離所以由上流側異物除去過濾 器402所產生的異物除去可良好地被進行。 下流側異物除去過濾器403,因爲被挾持設置在複數 支柱4 1 0及過濾器按壓40 5之間,所以該狀態被保持。因 此,因爲位置不會偏離所以由下流側異物除去過濾器403 所產生的異物除去可良好地被進行。 且,下流側異物除去過濾器403也有將粒狀的殺菌劑 的捕捉之功能。從除菌卡匣401流出粒狀的殺菌劑時,其 -22- 1360596 粒狀的殺菌劑是藉由下流側異物除去過濾器403被捕捉。 粒狀的殺菌劑是多種類。由金屬、玻璃等的粒子藉由銀離 子的吸著 '含入、混入等形成。 這些的硬質的粒子的殺菌劑即使從除菌卡匣401流出 因爲由下流側異物除去過濾器403被捕捉,所以可避免設 於洗澡水泵的流槽的破損。 且’下流側異物除去過濾器403的異物除去細孔是比 上流側異物除去過濾器402的異物除去細孔更小。因此可 以除去無法由上流側異物除去過濾器4 0 2被除去的細的異 物。1粒狀的殺菌劑的除菌效果下降的話,更新粒狀的殺 菌劑。除菌卡匣401的卡匣蓋408是藉由卡合手段卡止。 因此’卡匣蓋408不會因簡單將除菌卡匣401從洗澡水除 菌裝置400拔取/安裝而脫落,裝卸作業容易。 且,藉由粒狀的殺菌劑的更新,將卡匣蓋408安裝時 ’嵌入的卡匣蓋408因爲是在由複數支柱410的前端承接 的位置藉由卡合手段卡合,所以組裝容易。 有關進一步洗澡水除菌裝置的除菌效能、及流通性, 引用第29圖、第60圖敘述^ 除菌卡匣401也就是圓筒體407的徑> 1是38mm程 度。·通過除菌卡匣401內與被除菌的洗澡水流去的下流側 通路連結的細的流路的徑P 2是1 2mm程度。細的流路的 徑Φ2是與吸入管連接。 除菌卡匣401的上流側端面也就是卡匣蓋408的外側 面及上流側異物除去過濾器402相對面的間隙也就是上流 -23- 1360596 側間隙的長度D1是5mm程度。除菌卡匣401的下流 面也就是分隔部409的外側面及下流側異物除去過 403相對面的間隙也就是下流側間隙的長度D2是: 程度。由除菌卡匣401使被除菌的洗澡水流去的下流 路從途中漸漸地變細,在前端較細停止處使與徑<p2 的流路連通的方式連接。 從前述下流側通路開始變細的位置直到除菌卡匣 的下流側端面爲止的長度D3是30mm程度。從除菌 40 1的上流側端面(卡匣蓋408的外側面)直到下流 面(分隔部409的外側面)爲止的長度D4是15mm 〇 從除菌卡匣401的下流側端面(分隔部409的外 )直到下流側異物除去過濾器403的上流側端面爲止 度D2是1 5mm程度。從前述下流側通路開始變細的 直到下流側異物除去過濾器4 0 3的下流側端面爲止的 D5是l〇mm程度。前述下流側通路變細的範圍的長g 是1 0mm程度。 在除菌卡匣40 1的上流側端面及上流側異物除去 器402的相對面設有寬度爲D1 ( 5mm程度)的間隙 由’是爲了將洗澡水除菌裝置400和吸入管的殘水去 在除菌卡匣40 1的下流側端面及下流側異物除去 器403的相對面設有寬度爲D2 ( 15mm程度)的間隙 將洗澡水除菌裝置400和吸入管的殘水去除。 除菌卡匣401及上下流側異物除去過濾器太過接 側端 濾器 5mm 側通 的細 40 1 卡匣 側端 程度 側面 的長 位置 長度 t D6 過濾 的理 除。 過濾 ,供 近的 -24 - 1360596 話,在其間水膜生成將空氣的流通被遮斷而殘留於洗澡水 除菌裝置400成爲無法排水。在此,在除菌卡匣401及上 下流側異物除去過濾器之間藉由設置水膜不會生成程度的 間隙,空氣的流通就不會被遮斷,可以去除殘水。 殘水滯留在洗澡水除菌裝置400的話,因爲殺菌成分 會從除菌卡匣401內的殺菌劑熔出,所以除菌效能會提早 下降。且,熔出的高濃度的殺菌成分附著在洗衣中的衣類 的話,布料有可能變色。藉由將殘留於洗澡水除菌裝置 4〇〇排水,就可以消解除菌效能的早期下降及衣類的變色 的問題。又,將殘水去除的效果,與上下流側異物除去過 濾器側的間隙的確保相比更有效。且,卡匣蓋408,是如 第32圖所示,在外周緣部具有比設有多數的通水孔的外 側面更朝前側立起的環狀環。藉由此環狀環使上流側異物 除去過濾器402被承接就可以保持卡匣蓋408的外側面( 除菌卡匣40 1的上流側端面)之間的間隙。藉由如此簡單 的構成可以實現間隙的保持。 第60圖,是顯示流通性的圖表》 此圖表,是顯示從除菌卡匣40 1的上流側端面直到下 流側端面爲止的長度D4是1 5mm時,從下流側通路開始 變細的位置直到除菌卡匣401的下流側端面爲止的長度 D3是0mm〜30mm的範圍變化時的流動於除菌卡匣401 的每一單位的水量。此9L/分的流通量,是與不具備除菌 卡匣的習知的洗澡水給水具(粗濾器)同等的値》 從此圖表可知若長度D3比長度D4 ( 1 5mm )更縮短 -25- 1360596 的話,流通於除菌卡匣401的水量會下降。洗澡水因爲是 透過洗澡水除菌裝置400給水至洗衣機,所以除菌卡匣 401的流通量下降的話洗衣及清洗的給水時間會變長。 在此’長度D3及長度D4的關係爲D3>D4或是 D3=D4的話,即使具備將洗澡水除菌的除菌卡匣401,仍 可以確保與習知的洗澡水給水具(粗濾器)同等的流通量 。由此,不需延長洗衣及清洗的給水時間就可提供洗澡水 可以除菌的洗澡水除菌裝置。 有關洗衣線屑除去裝置、異物捕集防臭閥、沖洗洗淨 ,引用第33圖〜第43圖、第2圖、第3圖進行說明。 洗衣線屑除去裝置33,是如第1圖〜第3圖、及第 3 3圖〜第3 6圖所示,位於內槽3的上側,即位於外槽上 蓋300的蓋部302的下面。洗衣線屑除去裝置33,是如 第37圖〜第41圖所示,具有:洗衣線屑捕集殼5 00、及 將洗衣線屑捕集殼500保持用的保持殼501。 藉由保持殼501螺固於覆蓋部302的下面,洗衣線屑 除去裝置33,是第36圖所示被固定於外槽上蓋3 00。保 持殼501,是如第37圖所示具有供固定螺栓通過的螺栓 轂部502。 洗衣線屑捕集殼500,是可裝卸自如地裝設於保持殼 501»以拉出的方式,將洗衣線屑捕集殼500朝前後滑動 可裝卸自如地裝設於保持殼501。 洗衣線屑捕集殼5 00,是如第37圖、第38圖所示, 具有從底部503立起的周壁5 04。洗衣線屑捕集籠505, 26- 1360596 是可裝卸自如地被設置在周壁504內。籠蓋506是在洗衣 線屑捕集籠505可裝卸自如。保持殼501是具有垂下的蓋 按壓肋507。 肋507的下端,是可滑動自如地抵接在籠蓋5 06的上 面。因爲籠蓋5 06是將洗衣線屑捕集殼5 00裝設在保持殼 501時由肋507從上按壓,所以不會藉由洗衣動作的振動 和循環洗衣水的流入而脫落。 保持殼501是具有注入循環洗衣水的注入口 508。從 注入口 5 08被注入的循環洗衣水,是通過洗衣線屑捕集籠 505從沖洗口 509被注入內槽3。從注入口 508流入的循 環洗衣水,是具有被設在籠蓋506的流入口 510。 沖洗口 509,是呈圓形並朝下方向形成一個。形成圓 形的沖洗口 509的徑是19mm程度,30mm〜10mm程度較 佳。 肋5 07,也成爲將從注入口 50 8流入的循環洗衣水導 引至流入口 5 1 0的堰。朝流入口 5 1 0以外的循環洗衣水的 流出,因爲由肋5 07被堰塞,所以被包含於循環洗衣水的 線屑可良好地被堰塞。因爲籠蓋506,是在肋5 0 7的下端 存在嵌合溝,所以堰塞可進一步良好地進行。 保持殼501,是在下面具有相面對於前述周壁504的 方式設置的密封套51 1 (如第27圖所示)。因爲周壁504 的上端是密合在密封套5 1 1並將水的流動封閉,所以被注 入洗衣線屑捕集殼5 00的循環洗衣水,是不會漏出其他地 方,可以導引至沖洗口 5 09。 -27- 1360596 沖洗口 509,是設於由圓形的周壁504包圍的沖洗流 入室540的中央底部。沖洗流入室540是在側部具有流入 口 541。流入口 541的寬度是形成圓形且比沖洗流入室 540窄,是沖洗流入室540的徑的1/4程度。流入口 541 的方向,是對於沖洗口 509的中心偏心且是沖洗流入室 540的內周壁面的接線方向。成爲流入口 541的上流的導 入水路542,是具有朝向流入口 541變窄的形狀。 流入沖洗流入室540的洗衣水,因爲流入口 541是位 於沖洗流入室5 40的內周壁面的接線方向,所以會在沖洗 流入室540內繞轉。且,導入水路5 42因爲是朝向流入口 54 1變窄,所以成爲流動快的繞轉流。 洗衣線屑捕集殼5 00,是如第33圖〜第37圖、第39 圖〜第41圖所示在前側具有操作桿512。操作桿512,是 可轉動自如地被支撐於洗衣線屑捕集殼50 0。在操作桿 512的兩端設有溝的卡合部513。保持殼501,是在前側 ,具有相面對於操作桿512的兩端的一對的突出肋514。 在此突出肋514設有將前述溝的卡合部513卡止用的卡止 部 515。 操作桿512,其中央雖是被轉動支撐在洗衣線屑捕集 殼5 00的前側,但是在從中央偏離偏向的位置設置轉動支 點也可以。 由此卡合部513及卡止部515構成的操作桿卡合手段 ,是藉由操作桿512的扭轉,進行卡合、解開。卡合,是 藉由將操作桿512朝順時針方向旋轉,如第40圖所示使 -28- 1360596 卡σ部513及卡止部515卡合。藉由朝逆時針方向旋轉操 作桿512’如第41圖所示卡合部513從卡止部515脫離 而被解開。 即,操作桿512,在第33圖所示的水平的狀態下操 作桿卡合手段爲卡合’在第34圖、第35圖所示的傾斜的 狀態下操作桿卡合手段爲解開。 洗衣線屑捕集殼500的掃除,是將操作桿512扭轉使 藉由卡合部513及卡止部515的卡合所產生的操作桿卡合 手段的卡合加以解開,將洗衣線屑捕集殼500從保持殻 5〇1取下進行。掃除結束的話,將洗衣線屑捕集殻5〇〇安 裝於保持殼501。且,將操作桿512扭轉使卡合部513及 卡止部515卡合,藉由進行操作桿卡合手段的卡合,完成 洗衣線屑捕集殼500的裝設。 這種洗衣線屑捕集殼500的操作桿512,是在洗衣乾 衣機的運轉中,因爲被拘束成無法扭轉,所以洗衣線屑捕 集殼500不會脫落。 內蓋34,是如前述,在外槽上蓋3 00的蓋部302由 鉸鏈304可開閉自如地被支撐。在鉸鏈3 04自由地以後部 側作爲支點使內蓋34前側上昇下降的方式開閉轉動。在 此內蓋34的後側下方附近位置設有洗衣線屑捕集殼500 的操作桿512(如第33圖〜第36圖所示)。 內蓋3 4關閉的話,如第3 6圖所示,內蓋3 4的後側 下面是幾乎接觸操作桿512的上面地接近。由內蓋34的 後側下面的接近使操作桿512的扭轉作動被拘束。藉由此 -29- 1360596 扭轉作動的拘束,操作桿卡合手段的卡合不會被解開。因 此,在洗衣乾衣機的運轉中在內槽3轉繞的洗衣物即使與 操作桿512衝突,操作桿卡合手段的卡合也不會被解開, 可防止洗衣線屑捕集殼500的自然的脫落。 藉由內蓋34的開放,如第33圖〜第35圖所示,操 作桿512的扭轉拘束因爲被解除,所以操作桿卡合手段的 卡合被解開,可以將洗衣線屑捕集殼500取下進行掃除。 操作桿512的扭轉拘束,是利用由與內蓋34的開閉 動作的關連構築的扭轉拘束機構(扭轉拘束手段)造成, 與使用複雜的機械機構者相比,是簡單的構成,只由內蓋 34的開閉就可拘束/解除操作桿512的扭轉,使用很方便 〇 又’在上述實施例的洗衣機中,具有:前側是朝上下 作動的方式以後側爲轉動支點可轉動自如地支撐在外槽上 蓋3 00,將洗衣物的出入口 3 03打開關閉的內蓋34;及設 在外槽上蓋3 00的下面,洗衣線屑捕集殼5 00是出入自如 地保持在保持殼501的洗衣線屑除去裝置33。 在此洗衣機,洗衣線屑除去裝置33,是以中央爲轉 動支點可扭轉自如地被支撐在洗衣線屑捕集殼500,具有 藉由扭轉作動而對於保持殼501進行卡合、解開用的操作 桿512,操作桿512的與內蓋34的關係位置是成爲,將 內蓋34關閉的話內蓋34會接近並拘束前述扭轉作動,將 內蓋34打開的話前述拘束被解除。 以將內蓋34關閉的話內蓋34會接近並拘束前述扭轉 -30- 1360596 的作動且將內蓋34打開的話前述拘束被解除的方式構成 與內蓋34的關係位置的話,洗衣線屑除去裝置33的配置 位置’可以適宜選擇內蓋34被轉動支撐的支點位置。 異物除去防臭閥、循環泵,是如第42圖、第43圖所 示。 異物除去防臭閥32,是具有:防臭閥外殼520、及防 臭閥內殻52 1 » 防臭閥外殼520的流入口 522是與下部連通管41連 通。防臭閥外殻520的排出口 523是與循環泵45連通。 防臭閥內殼521,是具有插入防臭閥外殼520內的異 物除去防臭閥部524及設在前側的摘部525。將摘部5 25 挾住,將防臭閥內殼521朝防臭閥外殻5 20出入。在防臭 閥內殼521中設有由扭轉可以裝設、脫離的卡口式裝卸機 構。在防臭閥外殼520的前側出入口中,具備密封套,防 止從與被裝設的防臭閥內殼521的接合部的漏水。 防臭閥內殻521的異物除去防臭閥部524,是在後部 具有導入口,在前側周部具有小孔526的筒形。從導入口 流入異物除去防臭閥部5 24內的異物,因爲出口是設在前 側周部的小孔5 26所以防臭。因此,在循環泵45中將異 物除去的洗衣水被給水,保護循環泵45不受異物影響。 循環泵45,是具有:具備泵外殼527及泵流槽529 的離心泵部、及驅動用的電動機530。泵外殻527的吸入 口 528是與異物除去防臭閥32連通。泵外殼527的吐出 口 535是與洗衣水循環水路43連通。 -31 - 1360596 電動機530是使用旋轉數可改變的DC變頻器驅動的 可變速電動機。由電動機530的速度變化,使泵流槽529 的旋轉數改變,是循環的洗衣水量改變。 第2圖、第3圖,是顯示沖洗洗淨。 沖洗洗淨,是一邊由攪拌翼4將洗衣物攪拌清洗一邊 從洗衣物上將洗衣水沖洗洗淨。由節水使露出洗衣水的水 面的洗衣物,藉由一邊由洗衣水沖洗一邊由攪拌清洗,就 可以進行無斑的良好的清洗。 第2圖是顯示洗衣量多時的沖洗洗淨,藉由將循環泵 45的運轉速度提高將洗衣水的供給量增多,從沖洗口 509 (第37圖所示)散布於內槽3的沖洗531的廣度變大。 此沖洗531是成爲薄膜的圓錐形狀地擴大地漸廣,使洗衣 水散布在存在於內槽3的外周附近的洗衣物。 此薄膜圓錐形狀的沖洗,是如前述,從沖洗口 509流 出的沖洗是藉由流動快的繞轉流而生成。因此,依據從循 環泵45供給的供給水量來改變沖洗的廣度。 因此,將循環泵45的運轉速度下降將洗衣水的供給 量減少的話,如第3圖所示沖洗532的廣度變小。在由沖 洗5 32所產生的小的廣度中,使洗衣水散布於存在於內槽 3的中央部的洗衣物。 廣度大的沖洗531是由電動機530以2800rpm運轉時 進行,小的廣度的沖洗532是由電動機530以1600rpm運 轉時進行。 此沖洗洗淨,是藉由改變供給至沖洗口 5 09的洗衣水 -32- 1360596 的供給量,可以從內槽3的中央部橫跨及於內槽3的外周 附近的廣範圍的方式散布洗衣水。且,因爲從成爲一個圓 形的沖洗口 509流出,所以與如雨露不同,線屑的堵塞不 會產生。 但是,因爲薄膜圓錐形狀的沖洗,所以在圓錐的輪廓 以外處無洗衣水被散布。 在此,在洗衣運轉中進行的沖洗洗淨是不遺漏且均一 地使洗衣水被散布於存在於內槽3的內底的洗衣物整體。 即,從內槽3的中央部橫跨外周的洗衣水的散布移動 不會停止,藉由返覆的方式,可以朝存在於內槽3的內底 的洗衣物整體使洗衣水的散布不遺漏並均一化》 第59圖是顯示將洗衣水的散布不遺漏且均一地進行 的實施例,此波形的運轉模式圖是顯示循環泵的旋轉數隨 時變化。循環泵的旋轉數,較高是 2800RPM,較低是 1600RPM。在較高的旋轉數(2800RPM )中供給至沖洗口 509的洗衣水的供給水量增多。相反地在較低旋轉數( 1 600RPM)中供給至沖洗口 509的洗衣水的供給水量減少 〇 隨著此.高低的旋轉數變化供給水量的增減是由3秒間 隔被返覆切換。此高低旋轉數的切換,是由電動機530的 運轉控制進行。停留於較高的旋轉數(2 800 RPM )、較低 旋轉數(1 600RPM )的時間是愈短愈好,最長也爲1秒以 下。如此,供給至沖洗口 509的供給水量的增減不停地持 續,從內槽3的中央部橫跨外周的洗衣水的散布移動是不 -33- 1360596 停地返覆,朝存在於內槽3的內底的洗衣物整體將洗衣水 的散布可以不遺漏且均一化。 電動機530的運轉控制因爲是高低旋轉數的切換,所 以不需要複雜的運轉控制、控制裝置,可以成爲簡單的控 制裝置。 因爲具有電動機530及泵流槽的慣性、存在於循環泵 內的水的阻力,所以循環泵的旋轉數變化對於高低旋轉數 的切換不會立即反應,而是依照圖示被傾斜坡度的旋轉數 變化。因此,只由高低旋轉數的切換的簡單的控制裝置就 可以實現不遺漏且均一地洗衣水散布。 在如第59圖所示的實施例中,雖是由較高的旋轉數 (2 800RPM )、較低旋轉數( 1600 RPM) 、3秒間隔的返 覆切換所產生的運轉的控制,但是依據內槽的大小(徑尺 寸)、循環泵、電動機的容量等,可適宜地求得其數値。 必要的條件,是爲了使橫跨內槽的底部整體的洗衣水的散 布不遺漏且均一化,而將供給至沖洗口 5 09的供給水量的 增減不停地持續,使從內槽的中央部橫跨外周的洗衣水的 散布移動不停地返覆。 有關洗衣乾衣機的控制電路、操作盤、洗衣運轉的槪 要,引用第44圖〜第46圖進行說明。 第44圖所示的控制電路,是具有:成爲麥克風口電 腦主要部的主控制電路600、及負荷驅動控制電路601、 及電源電路602、及自動斷開(OFF)繼電器603,由商 用交流電源604被供電。 -34- 1360596 在主控制電路600、負荷驅動控制電路601及電源電 路6 02中,隔著自動斷開(OFF )繼電器6 03被供給電力 。電源電路602,是將交流變換成直流並供給至主控制電 路 600。 在負荷驅動控制電路601中,連接有:給水閥7、柔 軟後處理劑閥605、洗劑溶化閥606、冷卻水閥607、排 水閥44、洗衣乾燥用驅動馬達10、離合器608、蓋鎖定 機構609、電動送風機610、循環泵45、加熱器24等的 各種機器。負荷驅動控制電路601,是依據主控制電路 600的指示,控制各種機器的通電。 在主控制電路600中,連接有:各種的操作開關612 、水位感測器4 7、溫度感測器6 1 3、蓋開閉感測器6 1 4、 不揮發記億手段615、音聲發生IC616、液晶等的顯示部 617、錯誤報知的蜂鳴器618。 主控制電路600,是將各種的操作開關612、各種感 測器、及不揮發記億手段615及資訊進行通訊,控制負荷 驅動控制電路601和音聲發生IC616。主控制電路600是 指示:在顯示部617中包含錯誤的各種資訊的顯示、及在 錯誤發生時蜂鳴器6 1 8的鳴動。 各種的操作開關612,是將洗衣和乾燥的運轉資訊輸 入用’包含:被配置於第45圖、第1圖所示的操作盤 611的程序設定開關620、及清洗開關621、及清洗開關 622、及脫水開關623、及乾燥開關624、及開始/—時停 止開關625、及音聲開關626 '及節能用開關629、及略 -35- 1360596 電源(入)開關627、及電源(切)開關628。且 盤611中,配置有操作盤611» 開始/—時停止開關62 5,是兼具將後述的錯誤 止的錯誤解除開關。在錯誤報知中錯誤解除開關被 話,報知錯誤發生的蜂鳴器618的鳴動和顯示部6 誤顯示被解除。 在音聲開關62 6被操作的音聲發生IC616中, 喇叭630,從喇叭630由音聲提供有關於洗衣乾燥 資訊。 音聲發生手段的音聲發生IC616,是具有 ROM640、及D/A變換器641、及 AMP642。喇叭 發音的內容,是在音聲ROM640被構築,音聲發生 是依據主控制電路600的指示進行音聲的提供。 第46圖所示的洗衣運轉的運轉動作,是由: 程650、及清洗1過程651、及清洗2過程652、 脫水過程65 3的順序進行,至洗衣的運轉終了。此 朝乾燥運轉前進,但在此省略。 清洗過程650,是包含:布量測量的步驟650 1 給水的步驟6502、清洗攪拌的步驟6503。清洗 65 1,是包含:清洗1排水的步驟65 10、清洗1脫 驟6511、清洗1給水的步驟6512、清洗1攪拌 6513° 在清洗1脫水的步驟6510,由內槽3的旋轉 的不平衡發生量是超過規定値的話,跳過清洗1攪 在操作 報知停 押壓的 17的錯 連接有 運轉的 :音聲 630所 IC6 1 6 清洗過 及最終 後,雖 、清洗 1過程 水的步 的步驟 所產生 拌的步 -36- 1360596 驟6513。在此中斷脫水,攪拌被變更成注水。 清洗2過程652,是包含:清洗2排水的步驟6521、 清洗2脫水的步驟6 522、清洗2給水的步驟6523、清洗 2攪拌的步驟6524。在清洗2脫水的步驟6522,由內槽3 的旋轉所產生的不平衡發生量是超過規定値的話,跳過清 洗2攪拌的步驟6524。在此中斷脫水,攪拌被變更成注 水。 最終脫水過程65 3,是包含:最終排水的步驟65 3 0、 最終脫水的步驟6 5 3 1。在最終脫水的步驟6 5 3 1,由內槽 3的旋轉所產生的不平衡發生量是超過規定値的話,跳過 清洗2排水的步驟6521。在此中斷脫水,將清洗2過程 6 5 2、及最終脫水過程6 5 3重新再做。 有關洗衣運轉的最初實行的清洗過程650中的布量測 量’引用第50圖〜第54圖進行說明。 依據由布量測量的布量判別求得的布量(洗衣物量) 被算出的洗劑量、洗衣水量進行洗衣。此布量判別,因爲 是洗衣物爲乾的乾布狀態下,所以濕布混合的話會判別成 比乾布的布更多,洗劑量、洗衣水量會多餘。 在此’濕布即使存也可以無誤地判別布量,就可提供 洗劑、洗衣水不會浪費的洗衣乾衣機。 第51圖’是顯示洗衣乾燥用驅動馬達10的q軸電流 (向量控制)的測量値、及洗衣物量(布量)的關係。 白圓’是對於包含濕布的洗衣物量的q軸電流積算値 。黑圓’是對於不含濕布只有乾布的洗衣物量的q軸電流 -37- 1360596 積算値。洗衣物是只有乾布時q軸電流積算値的參差不一 的變化雖小,但洗衣物濕布混合的話q軸電流積算値的參 差不一的變化變大。 第52圖,是將如第51圖所示的測量値集計變化的變 動幅度及洗衣物量的關係由只有乾布及濕布混合的對比顯 示。變動幅度在20以下爲只有乾布,在20以上爲濕布混 合。藉由變動幅度,可以判別只有乾布及濕布混合。 藉由第53圖所示的布量判別目錄表(a)、及第54 圖所示的布量判別目錄表(b),設定依據布量的使用的 洗衣水的水量。且洗劑量也被設定》 布量判別目錄表(a )因爲只有乾布,所以對應被判 別出的布量(洗衣物量)的水量被設定。 布量判別目錄表(b )因爲是濕布混合,所以洗衣物 量是從對應點線顯示的圓圈記號的布量朝對應點線的圓圈 記號的布量下降。如此對應考慮被包含於混合的濕布的水 分量而減算的布量(乾布的洗衣物量)的水量被設定。由 此,即使被測量出比只有乾布更多洗衣物量的濕布混合的 洗衣物’因爲可由將因包含的水分分量而被多測量水量減 去的水量被設定,所以可以抑制洗衣水、洗劑的多餘使用 〇 第5 0圖,是顯示布量判別的流程。 沿續布量判別開始的步驟6 6 0,在測量次數的步驟 661中’N次數被設定,洗衣乾燥用驅動馬達被驅動開始 (步驟662)。由:q軸電流的取入(步驟663)、洗衣 -38- 1360596 乾燥用驅動馬達的驅動停止(步驟664 ) 、Ν = ΝΤ1 ( 665) 、N = 0(步驟666)、變動幅度Η的算出(步驟 )的順序推移。 且,變動幅度Η被判別出20以下或以上(步驟 ),以下時被判別爲布量目錄表a (步驟669) ^以 被判別爲布量目錄表b (步驟670 )。依據各別的布 錄表,經由布量判別處理(步驟67 1 )至布量判別終 步驟672 )。 在乾燥運轉的標準運轉,有關節能運轉,引用箅 圖〜第58圖、第44圖、第45圖進行說明。 乾燥運轉的標準運轉,是進行第56圖的(A) 的運轉。節能運轉,是進行第56圖的(B)所示的運 在標準運轉中,是進行加熱器24 (第44圖)的發熱 (強)的加熱乾燥運轉,在乾燥完成後經過只有送風 卻運轉之後終了。在節能運轉中,先進行加熱器24 熱量大(強)的加熱乾燥運轉,接近乾燥的話切換至 器24的發熱量小(弱)的弱加熱乾燥運轉,在乾燥 後經過只有送風的冷卻運轉之後終了。 第57圖’是顯示標準運轉中的消耗電力及運轉 的關係。第58圖’是顯示節能運轉中的消耗電力及 時間的關係。標準運轉及節能運轉雖在運轉時間中幾 同’但是在電力消耗中將加熱器24的發熱量由在途 至一半的節能運轉的話,可以期待節電效果。 在節能運轉中接近乾燥時,即使被切換至弱加熱 步驟 667 668 上時 量目 了( 155· 所示 轉。 最大 的冷 的發 加熱 完成 時間 運轉 乎相 中減 乾燥 •39- 1360596 運轉,因爲利用已充分地被加熱的洗衣乾衣機的餘熱進行 與標準運轉不變的乾燥,所以認爲可以在接近標準運轉運 轉時間進行乾燥。 第55圖是顯示節能運轉的流程。 沿續乾燥開始的步驟680,在電動送風機610導通( ON )、加熱器24強(導通(ON ))的步驟681,進行加 熱乾燥運轉。在冷卻水導通(ON )的步驟682,冷卻水是 從流下部85(第5圖所示的)流下,進行乾燥用空氣的 除濕。初期溫度檢出(步驟683 )、溫度檢出(步驟684 )'乾燥度算出(步驟685 )是逐次被進行,溫度、乾燥 度是成爲接近乾燥的判別値D1以上(步驟686 )的話切 換至加熱器24弱(步驟687)。 接著,溫度檢出(步驟688)、乾燥度算出(步驟 689 )是逐次被進行,溫度、乾燥度是成爲乾燥完成的判 別値D2以上(步驟690 )的話切換至加熱器24斷開( OFF)的步驟691,進入電動送風機610斷開(OFF)、 冷卻水斷開(OFF )的步驟692,直到乾燥終了(步驟 693 )。 上述的節能乾燥運轉,是由設在第45圖所示的操作 盤611的節能用開關629設定。節能乾燥運轉、標準乾燥 運轉因爲是可以由包含節能用開關629的各種開關選擇, 所以可以依據洗衣物量,洗衣物的種類適宜地選擇。 有關於洗衣乾衣機的運轉的由音聲所產生的音聲導引 、顯示及錯誤發生時的報知,引用第47圖〜第49圖、第 -40- 1360596 44圖、第45圖進行說明。 在第47圖顯示有關於運轉開始處理的流程^ 將各種的操作開關612(第45圖所示)按壓,進行 包含洗衣乾燥的程序和運轉動作的運轉內容的初期設定( 步驟70 0 ) ’將開始/—時停止開關62 5按壓使運轉開始( 步驟701)。運轉開始時,音聲開關626被押壓成爲發音 許可狀態(步驟702)的話,音聲發生IC616作動,會從 喇叭630 (第44圖)聽見開始運轉的音聲導引(步驟 703 ),朝運轉動作前進(步驟704 )。 如此運轉開始時,因爲進入由告知運轉開始的音聲進 行導引,所以對於不習慣的使用者也容易進行洗衣操作。 在步驟70 1,在未開始的待機時進行設定內容變更的 輸入(步驟7〇5),在成爲發音許可狀態時(步驟706 ) ,其被變更的設定內容是藉由音聲被導引(步驟707)。 如此洗衣乾燥運轉的設定內容因爲是由音聲被導引, 所以從此無法進入運轉的洗衣乾燥的內容可藉由聽取確認 。即使其周圍較暗,顯示部617(第45圖所示)的顯示 資訊難看見,對於設定內容也可以藉由音聲的導引而確實 地把握。 第49圖,是顯示有關於洗衣乾燥運轉中的錯誤處理 的流程。 在錯誤處理中,首先,判別錯誤報知狀態的有無(步 驟720)。由此步驟720,若錯誤報知的狀態爲無時進行 錯誤解除處理(步驟72 1)後返回。 -41 - 1360596 在步驟720,雖錯誤報知狀態爲有但蜂鳴器未鳴動( 步驟722 )時,判別發音許可狀態的有無(步驟723 )。 由此步驟722,發音許可狀態爲有時是錯誤內容及應付方 法是由音被聲告知(步驟724),經過前述的步驟721後 返回。 在步驟722蜂鳴器鳴動,藉由開始/—時停止開關625 的操作進行錯誤解除按鍵(步驟725)的話,蜂鳴器的鳴 動被停止(步驟726),朝步驟723 (發音許可狀態的有 無)前進。 在步驟725錯誤解除按鍵不被實行時,藉由音聲開關 626的操作使音聲按鍵(步驟727 )被輸入的話,朝步驟 726 (蜂鳴器鳴動停止)前進。在步驟727音聲按鍵即使 未輸入,若預定時間經過並到達蜂鳴器鳴動時間終了(步 驟72 8 )的話,朝步驟726 (蜂鳴器鳴動停止)前進。 且,在步驟72 3即使發音許可狀態爲無但若錯誤發生 時,必定遵循步驟724由音聲告知錯誤內容及應付方法。 即,藉由錯誤發生使蜂鳴器鳴動,開始/一時停止開 關62 5被押壓的話,蜂鳴器的鳴動被停止,接著藉由步驟 724的發音可聽到錯誤內容及應付方法。即使不押壓開始/ —時停止開關625,蜂鳴器的鳴動經過預定時間的話,就 停止蜂鳴器鳴動,並由音聲告知錯誤內容及應付方法。 且,錯誤報知的蜂鳴器鳴動停止之後,由音聲聽取錯 誤內容的告知容易,錯誤內容的把握可迅速進行。 又,由音聲發生手段告知錯誤內容時蜂鳴器鳴動雖停 -42- 1360596 止,但是如顯示部617所示的錯誤顯示是繼續或停止也可 以。 錯誤發生時的音聲導引的內容是如以下項目。 (1 ) . ( 1 ) -1「原因j的說明、(1 ) -2「狀態」的 說明。 (2 ).其應付方法的說明。 (3) .即使不切斷電源,運轉會再開的說明。 *藉由進行處理,運轉可再開的情況。 (4) ·之後的過程(可以/無法繼續)的說明》 依據上述的內容,音聲導引的具體例如下所示。 「[ ( 1 ) -1]因爲洗衣物已偏位,[(1 ) -2]所以將脫 水運轉中斷。 [(3)]將一時停止按鈕按壓之後,[(2)]將外蓋/內 蓋打開,請修正洗衣物的偏位。[(4 )]將開始按鈕按壓 並開始運轉。」 除了應付這種錯誤發生而由蜂鳴器所產生的鳴動、顯 示部的報知以外,更藉由音聲告知錯誤內容及應付方法, 對於錯誤消解的對應就可迅速地進行。特別是,即使忘記 按壓要求音聲導引的音聲開關626,應付錯誤發生的音聲 的告知,因爲是加上蜂鳴器的鳴動、顯示部的報知的告知 ,所以洗衣乾衣機的使用方便性進一步提高。 又,由步驟723,發音許可狀態爲否的情況時,音聲 導引完全不被實行》這是因爲,音聲導引被設定無效使音 聲導引不被進行的情況。此音聲導引被設定無效的話,在 -43- 1360596 蜂鳴器的鳴動、錯誤報知中,即使將開始/ 一時停止開關 625或是音聲開關626導通(ON),音聲導引仍不被進行 〇 第48圖,是包含錯誤資訊讀入的運轉開始處理的流 程。 在此流程中,後半的步驟700之後,因爲是與有關於 第47圖說明的運轉開始處理的流程內容相同,所以附加 共通的符號省略說明。 其次,首先藉由不揮發記憶手段615 (第44圖所示 的),將錯誤資訊讀入(步驟73 0)。接著判別錯誤有無 (步驟731 ),無錯誤時朝步驟700前進。 在步驟731有錯誤時,是判別發音許可狀態的有無( 步驟732)。在步驟732發音許可狀態爲有時,由音聲告 知錯誤內容及應付方法(步驟73 3 )。且,錯誤解除按鍵 受理(步驟73 4 )被進行的話,停止錯誤顯示及音聲發音 (步驟73 5 ),朝步驟700前進。 錯誤解除按鍵受理(步驟734)不被進行時,反覆由 音聲告知錯誤內容及應付方法的廣播。此廣播返覆數次後 ,朝步驟700前進也可以。 在步驟73 2發音許可狀態爲無時,在顯示部顯示錯誤 (736)。且也依據需要加上蜂鳴器的鳴動。且,朝步驟 73 4前進。 【圖式簡單說明】 -44 - 1360596 [第1圖]有關於本發明的實施例者,顯示洗衣乾衣機 的槪略的縱剖面圖。 [第2圖]有關於本發明的實施例者,顯示洗衣物量多 時的沖洗洗淨的圖。 [第3圖]有關於本發明的實施例者,顯示洗衣物量少 時的沖洗洗淨的圖。 [第4圖]有關於本發明的實施例者,乾燥機構的除濕 手段(除濕用縱通路)的外觀立體圖。 [第5圖]有關於本發明的實施例者,顯示乾燥機構的 除濕手段(除濕用縱通路)的內部的立體圖。 [第6圖]有關於本發明的實施例者,從乾燥機構的除 濕手段(除濕用縱通路)的第4圖的相反方面所見的立體 rsi 圖。 [第7圖]有關於本發明的實施例者,在與第6圖相同 的立體圖顯示將窗用蓋從棉絨除去用窗90取下的圖。 [第8圖]有關於本發明的實施例者,將外框從後側顯 不的圖。 [第9圖]有關於本發明的實施例者,第8圖的A-A剖 面圖。 [第10圖]有關於本發明的實施例者,將外用蓋從外 窗取下並窺視窗用蓋的立體圖。 [第11圖]有關於本發明的實施例者,顯示由外用蓋 將外窗關閉的狀態及窗用蓋的對應關係的立體圖。 [第12圖]有關於本發明的實施例者,暖風組件的外 -45- 1360596 觀立體圖。 [第1 3圖]有關於本發明的實施例者,將表側組件殼 取下顯示暖風組件的內部的立體圖。 [第14圖]有關於本發明的實施例者,在與第13圖相 同的圖顯示取下風扇蓋的圖β [第15圖]有關於本發明的實施例者,乾燥過濾器( 乾燥過濾器裝置)的外觀立體圖。 [第16圖]有關於本發明的實施例者,由乾燥過濾器 框體的前側框部的剖面圖顯示脫落止手段》 [第17圖]有關於本發明的實施例者,在乾燥過濾器 框體的外觀立體圖將脫落止手段分解顯示。 [第18圖]有關於本發明的實施例者,在乾燥過濾器 框體的前側框部安裝有脫落止手段的剖面圖。 [第19圖]有關於本發明的實施例者,在乾燥過濾器 框體的前側框部顯示安裝有脫落止手段的圖。 [第20圖]有關於本發明的實施例者,脫落止手段的 分解立體圖。 [第21圖]有關於本發明的實施例者,顯示設在乾燥 過濾器框體的前側框部的一對的卡合溝及貫通孔的圖。 [第22圖]有關於本發明的實施例者,在內蓋被打開 的狀態下將外槽上蓋從上所見的圖。 [第23圖]有關於本發明的實施例者,在內蓋進一步 被打開的狀態下將外槽上蓋從上所見的圖。 [第24圖]有關於本發明的實施例者,顯示簧片用螺 -46 - 1360596 栓周圍的擴大圖。 [第25圖]有關於本發明的實施例者,在將內蓋關閉 狀態下顯示導電橡膠構件、外槽上蓋、鉸鏈轉動軸、簧片 構件的關係的立體圖。 [第26圖]有關於本發明的實施例者,在將內蓋關閉 的狀態下顯示螺栓、補強框架、導電橡膠構件、簧片用螺 栓、外槽上蓋、鉸鏈轉動軸、簧片構件的關係的剖面圖。 [第27圖]有關於本發明的實施例者,在將內蓋打開 的狀態下顯示導電橡膠構件、簧片用螺栓、外槽上蓋、鉸 鏈轉動軸、簧片構件的關係的立體圖。 [第28圖]有關於本發明的實施例者,在將內蓋打開 的狀態下顯示螺栓、補強框架' 導電橡膠構件、簧片用螺 栓、外槽上蓋、鉸鏈轉動軸、簧片構件的關係的剖面圖。 [第29圖]有關於本發明的實施例者,洗澡水除菌裝 置的剖面圖。 [第30圖]有關於本發明的實施例者,洗澡水除菌裝 置的剖面立體圖。 [第31圖]有關於本發明的實施例者,洗澡水除菌裝 置的分解立體圖。 [第32圖]有關於本發明的實施例者,除菌卡匣的分 解立體圖》 [第33圖]有關於本發明的實施例者,將內蓋打開, 顯示設於外槽上蓋的下面的洗衣線屑除去裝置的操作桿及 內蓋的位置關係的圖。 -47- 1360596 [第34圖]有關於本發明的實施例者,將內蓋打開, 顯示將洗衣線屑除去裝置的操作桿朝逆時針方向旋轉並將 操作桿的卡合解開的圖β [第35圖]有關於本發明的實施例者,將內蓋打開, 顯示將洗衣線屑除去裝置的操作桿朝逆時針方向旋轉並將 操作桿的卡合解開並將洗衣線屑捕集殼拉出的圖。 [第36圖]有關於本發明的實施例者,將設有洗衣線 屑除去裝置的外槽上蓋從下面所見的立體圖。 [第37圖]有關於本發明的實施例者,洗衣線屑除去 裝置的平面圖。 [第38圖]有關於本發明的實施例者,洗衣線屑除去 裝置的縱剖面圖。 [第39圖]有關於本發明的實施例者,顯示洗衣線屑 除去裝置的操作桿及操作桿卡合手段的平面圖。 [第40圖]有關於本發明的實施例者,將洗衣線屑除 去裝置的操作桿卡合手段被卡合的狀態由縱剖面顯示的圖 〇 [第41圖]有關於本發明的實施例者,將洗衣線屑除 去裝置的操作桿卡合手段被解開的狀態由縱剖面顯示的圖 〇 [第42圖]有關於本發明的實施例者,異物除去防臭 閥及循環泵的縱剖面圖。 [第43圖]有關於本發明的實施例者,由異物除去防 臭閥及循環泵的縱剖面圖顯示從防臭閥外殼取下防臭閥內 -48- 1360596 殻的狀態。 [第44圖]有關於本發明的實施例者,洗衣乾衣機的 控制電路。 [第45圖]有關於本發明的實施例者,顯示配置有各 種開關、顯示部的操作盤的圖。 [第46圖]有關於本發明的實施例者,顯示從洗衣乾 衣機的清洗至最終脫水的過程的圖。 [第47圖]有關於本發明的實施例者,顯示有關於運 轉開始處理的流程圖。 [第48圖]有關於本發明的實施例者,顯示包含錯誤 資訊讀入的運轉開始處理的流程圖。 [第49圖]有關於本發明的實施例者,顯示有關於錯 誤處理的流程圖。 [第50圖]有關於本發明的實施例者,顯示洗衣運轉 的最初進行的布量判別的流程圖。 [第51圖]有關於本發明的實施例者,顯示洗衣乾燥 用驅動馬達的q軸電流及洗衣物量(布量)的關係的圖。 [第52圖]有關於本發明的實施例者,顯示q軸電流 的變動幅度及洗衣物量(布量)的關係的圖。 [第53圖]有關於本發明的實施例者,顯示只有乾布 的布量判別目錄表(洗衣物布量及設定水位)的圖。 [第54圖]有關於本發明的實施例者,顯示濕布存在 的布量判別目錄表(洗衣物布量及設定水位)的圖。 [第55圖]有關於本發明的實施例者,顯示乾燥運轉 -49- 1360596 中的節能運轉的流程。 [第56圖]有關於本發 的標準運轉及節能運轉由加 [第57圖]有關於本發 的標準運轉由消耗電力及運 [第58圖]有關於本發 的節能運轉由消耗電力及運 [第59圖]有關於本發 時間及循環泵旋轉數的關係 [第60圖]有關於本發 菌裝置的流通性的圖表。 【主要元件符號說明】 1 :外框 3 :內槽 5 :外蓋 7 :給水閥 9 :乾燥機構 2〇 :底部循環路 22 :暖風組件 24 :加熱器 26 :下部蛇腹管 30 :給水管 32 :異物除去防臭閥 明的實施例者,將乾燥運轉中 熱器的通電顯示的圖。 明的實施例者,將乾燥運轉中 轉時間的關係顯示的圖。 明的實施例者,將乾燥運轉中 轉時間的關係顯示的圖。 明的實施例者,顯示運轉經過 的圖。 明的實施例者,顯示洗澡水除 2 :外槽 4 =攪拌翼 6 :頂蓋 8:流入連接部 1〇 :洗衣乾燥用驅動馬達 21 :除濕用縱通路 23 :上部蛇腹管 25 :連接循環路 29 :送風風扇 31 :底落入部 33 :洗衣線屑除去裝置 -50- 13605961360596 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a washing machine and a washing and drying machine that is carried out from laundry until drying. [Prior Art] A washing machine, and a washing and drying machine from laundry to drying, are used in a washing operation to wash laundry water from a circulation pump and rinse the laundry in the laundry tank. For example, Japanese Laid-Open Patent Publication No. 2007-282934 (Patent Document 1). [Problem to be Solved by the Invention] In the water saving of the washing water, the washing water is applied to the laundry which is exposed to the surface of the washing water. In the distributed rinsing method (Patent Document 1), the washing water can be widely distributed from the center across the outer circumference in the inner tank. SUMMARY OF THE INVENTION An object of the present invention is to provide a washing machine which uses the rinsing method shown in Patent Document 1 to spread the washing water in a uniform manner from the center and the periphery of the outer tank without any leakage. (Means for Solving the Problem) The present invention relates to a washing machine comprising: 1360596 outer tank in which washing water and washing water are retained; and a vertically disposed inner tank in which the laundry is accommodated and rotatably built in the outer tank; a flushing port disposed above the inner tank to disperse washing water or washing water from above the laundry; and a circulation pump for sucking up the washing water or the washing water retained in the outer tank and supplying the washing water to the flushing port; The washing water or the washing water is dispersed by rotating around the flushing port, and the amount of the supplied water supplied to the flushing port by the circulation pump is continuously returned. [Effects of the Invention] According to the present invention, the increase or decrease in the amount of supply water supplied to the flushing port by the circulation pump is continuously repeated, so that the dispersion of the washing water in the inner tank can be wide from the center and the outer circumference. Missing and uniform. [Embodiment] Embodiments of the present invention will be described with reference to Figs. 1 to 60. First, referring to Figure 1, the outline of the washer-dryer is explained. The outer frame 1 of the washing and drying machine is built in the outer tank 2 for storing the washing water. The outer groove 2 is supported by the outer frame 1 by vibration. The laundry dewatering tank (inner tank) 3, which accommodates and washes and dries the laundry, is rotatably supported in the outer tub 2. The stirring blade 4 for washing and washing the laundry is rotatably built in the inner tub 3. During the washing operation and during the drying operation, the stirring blade 4 returns to the forward/reverse rotation. In the dehydration operation, the agitation blade 4 is rotated at a high speed together with the inner tank 3 - 5 - 1360596, so that the moisture of the laundry contained in the inner tank 3 is dehydrated. The washing and drying drive motor 10 is configured to perform rotational driving of the stirring blade 4 and the inner tub 3. The washing and drying drive motor 10 uses a DC brushless motor. This DC brushless motor is vector controlled. The outer cover 5 is openably and closably provided on the top cover 6 located at the upper portion of the outer frame 1. In the upper portion of the outer tub 2, the inner lid 34 is openably and closably provided. The outer cover 5 and the inner cover 34 are opened to allow the laundry to enter and exit in the inner tub 3. The top cover 6 has a water supply box (not shown) on the front side. In the water supply tank, water and bath water are supplied to the outer tank 2. The detergent and finishing agent input device 35 is located on the front side of the top cover 6. The detergent and the finishing agent are injected into the outer tank 2 and the inner tank 3 by the inlet pipe 36. The water supply valve 7 is provided at the rear of the top cover 6. The inflow connection portion 8' of the water supply valve 7 protrudes upward through the top cover 6. A water pipe (not shown) is connected to the inflow connection portion 8 which is protruded here. The discharge port side of the water supply valve 7 is connected to the previous water supply tank via the connected water supply pipe 30. The drop port of the water supply tank is oriented between the outer tank 2 and the inner tank 3. A bath water pump (not shown) that sucks up the bath water is also built in the rear of the top cover 6. The bathing pump is connected to a suction pipe that extends to the bath. At the front end of the suction pipe, there is provided a bath water removing device for sterilizing bath water to be described later. The drying mechanism 9' is a circulating air supply and dehumidification of drying air for drying the laundry in the inner tub 3. Most of the drying mechanism 9 is occupied by an air circulation path. -6- 1360596 The air circulation path for drying is a dehumidification longitudinal passage 21 that rises from the bottom circulation passage 20 and a vertical passage 21 for dehumidification, which is connected to the bottom of the outer tank 2 The warm air assembly 22 is connected to the upper side in a connected manner. The heater unit 22 is a blower fan and a heater 24 which will be described later in detail. The suction side of the heater unit 22 is connected to the upper side of the dehumidification longitudinal passage 21, and the discharge side is connected to the return connection circulation path 25. The connection circulation path 25 is provided with an upper bellows tube 23, and is connected to the upper portion of the outer tank 2 via the upper bellows tube 23. The bottom circulation path 20 also has a lower bellows tube 26 that is connected to communicate with the bottom of the outer tank 2 via the lower bellows tube 26. The dehumidification longitudinal passage 21 is built in a dehumidification field to be described later. The dehumidification field extends longitudinally within the longitudinal passage 21 for dehumidification. The bath water and the channel water supplied to the dehumidification area are cooled by the drying air which rises along the dehumidification longitudinal passage 21, so that the moisture contained in the drying air is taken up, and the blower fan by the warm air unit 22 is taken. 29, the drying air that has passed through the drying air circulation path is circulated in the inner tank 3, and the laundry in the inner tank 3 is dried. Since the drying air in which the moisture is removed in the dehumidification area is reheated by the heater of the warm air unit 22 and flows toward the inner tank 3, the moisture of the laundry can be removed. This moisture removal is repeated by the circulation of the drying air, so that the laundry is well dried. The lower bellows 26 and the bottom drop portion 31 of the outer tub 2 are connected to the wash water drain passage 42 and the wash water circulation water passage 43 via the lower communication tube 41 1360596. The washing water drain passage 42 communicates with the lower communicating pipe 41 via the drain valve 44, and the washing water circulating water passage 43 communicates with the lower communicating pipe 41 via the circulation pump 45 and the foreign matter removing and deodorizing valve 32. The drain valve 44 is closed during the washing operation and during the drying operation. The drain valve 44 is opened and the washing water and the washing water retained in the outer tub 2 are drained toward the outside of the washer dryer when the laundry water is drained and drained. The suction side of the circulation pump 45 is connected to the foreign matter removing and deodorizing valve 32. The discharge side of the circulation pump 45 is connected to the wash water circulation water passage 43 so as to be connected. The washing water circulating water longitudinal water passage 46 connected to the front side of the washing water circulation water passage 43 rises along the outer side surface of the outer tank 2 and extends up to the upper side of the inner tank 3, and is provided on the upper side of the inner tank 3 and with the washing thread removing device. 33 connected ways are connected. The washing water and the washing water retained in the outer tub 2 are sucked up by the circulation pump 45, and flowed in the washing water circulating water longitudinal water passage 46 from the washing thread removing device 33 to the inner tub 3. Since the washing and rinsing by the circulating water generated by the circulation pump 45 is carried out in a continuous manner, the laundry can be cleaned with a small amount of water. The water level sensor 47 detects the water level of the washing water and the washing water retained in the outer tank 2, and an air deodorizing valve 50 is provided in the outer tank 2 near the bottom, and an air tube 49 connected to the air deodorizing valve is provided. . The upper end of the air tube 49 is connected in a manner to communicate with the water level sensor 47. The water level variation in the outer tank 2 is sensed by the water level sensor 47 for water level detection. -8- 1360596 Next, various features of the present invention will be described with reference to the drawings. First, the drying mechanism, the dehumidification means, and the lint removal will be described with reference to Figs. 4 to 11 . The drying air circulation path occupied by most of the drying mechanism 9 has a vertical passage 21 for dehumidification. This dehumidification longitudinal passage 21 is as shown in Fig. 5, and has a cooling fin 72 included in the dehumidifying means in the dehumidification zone 70. The dehumidification zone 70 is in the range from the middle of the dehumidification longitudinal passage 21 and across the upper portion. The lower end of the dehumidification zone 70 is the level at which the washing water is at a high water level (when the amount of laundry is large). The cooling fins 72 of the dehumidifying means are formed of a metal material having good heat conductivity such as stainless steel or aluminum. Further, the cooling fins may be integrally formed of synthetic resin in the same manner as the longitudinal passage 2 for dehumidification. The cooling fins 72 are erected so as to protrude from the inner wall surface of the longitudinal passage 21 for dehumidification. The drying air flowing from the bottom to the top in the longitudinal passage 21 for dehumidification is dehumidified so as to be raised while touching the cooling fins 72. The cooling water supply connection port 80 is provided in the dehumidification vertical passage 21. In this supply port 80, a cooling water pipe for supplying water for the channel and bath water sucked by the bath water pump is connected. The cooling water is lowered along the longitudinal passage 21 for dehumidification by the supply port 80 while contacting the cooling fins 72. Here, the drying air which rises from the lower side along the dehumidification longitudinal passage 21 comes into contact with the cooling water and the cooling fins 72, and is cooled, so that the moisture contained in the drying air is taken. The supply port 8 1 for the washing water is a supply port 80 adjacent to the cooling water. » In this supply port 8 1 , the bath water for the channel water pump 9- 1360596 and the bath water pump is connected. The washing water is supplied to the cooling water supply pipe. The washing water is supplied to the connection port 81 through the washing water, and is brought into contact with the cooling fins 72 to descend along the longitudinal passage 21 for dehumidification. The lint and the cloth dust adhering to the inner wall surface of the cooling fin 72 and the longitudinal passage 21 for dehumidification are removed by the washing water flow. The defoaming nozzle 82 is provided at the upper portion of the longitudinal passage 21 for dehumidification. The front end of the defoaming nozzle 82 is set to be inclined downward. The defoaming water supply pipe 83 is connected to the defoaming nozzle 82. Although not shown, the defoaming water supply pipe 83 is connected to the washing water circulating water longitudinal water passage 46. The defoaming water is dispersed by the defoaming nozzle 82 in the washing operation and the washing operation. By this defoaming water, the lotion bubbles which rise along the dehumidification longitudinal passage 21 during the washing operation and the washing operation are eliminated. The increased lotion bubble is removed while rising along the longitudinal channel 21 for dehumidification. The vertical passage 21 for dehumidification has a rectangular shape in cross section. The reason why the width of the longitudinal direction of the dehumidification longitudinal passage 21 is narrow and the width in the lateral direction is wide is because of the arrangement relationship of the longitudinal passages 21 for dehumidification. The dehumidification longitudinal passage 21 is provided between the outer tub 2 and the outer frame 1 on the rear side of the washer-dryer. Since the rear side of the washer-dryer is narrow only in the space between the outer tub 2 and the outer frame 1, the dehumidification longitudinal passage 2 1 has the above-described shape. Further, although the outer frame 1 has a square shape, since the hanging bar for hanging the outer groove 2 is provided in the four frames, the vertical passage 21 for dehumidification is disposed on the rear side of the washer-dryer. The longitudinal passage 21 for dehumidification of the above shape has a flared portion -10- 1360596 portion 84 on the upper side. The expansion air passage portion 84 is formed by expanding the width of the upper portion in the lateral direction toward the outside of the dehumidification longitudinal passage 21 by about 2/3. The width in the lateral direction of the upper end of the longitudinal passage 21 for dehumidification is about twice the width in the lateral direction of the lower end. Further, the expanded air passage portion 84 has an inclined shape that is expanded toward the upper lateral width. The upper end of the longitudinal passage 21 for dehumidification has a drying air outlet 86 for allowing the drying air to flow out in the upper portion of the expansion air passage portion 84, and a lower portion 85 having cooling water in the other portion except the expansion air passage portion 84. . The cooling water supplied from the cooling water supply connection port 80 flows down from the lower portion 85, and descends along the cooling fins 72 along the longitudinal passage 2 for dehumidification. The drying air flows from the bottom to the top along the longitudinal passage 2 for dehumidification, and the contact with the cooling water is stopped in the expansion air passage portion 84, and flows toward the warm air module 22 and a drying filter to be described later. By expanding the air passage portion 84, it is possible to suppress the water droplets of the cooling water from flowing into the warm air module 22 and the drying filter. In other words, when the drying air passage portion 86 is not provided, and the drying air outlet 86 is provided in the lower portion 85 of the cooling water, the water droplets of the cooling water flowing down from the lower portion 85 and splashed by the cooling fins 72 have the drying air. The possibility of flowing into the warm air assembly 22 and drying the filter. However, by providing the expansion air passage portion 84, the drying air that rises from the lower side of the dehumidification vertical passage 21 is stopped in contact with the cooling water in the expansion air passage portion 84. Therefore, the drying air is deviated before the cooling water flowing down from the lower portion 85 passes through the splashed portion by the cooling fins 72. Further, the flow path sectional area of the dehumidification longitudinal passage 21 is larger when the expansion air passage portion -11 - 1360596 84 is present than when the lower expansion air passage portion 84 is not present. Therefore, the flow of the drying air becomes gentler, and there is no power (force) for transporting the water droplets of the cooling water. By providing the expansion air passage portion 84, the drying air is transported by the water droplets that do not carry the cooling water, so that the water droplets of the cooling water can be prevented from flowing into the warm air module 22 and the drying filter. In the washing operation and the cleaning operation, even if the defoaming of the defoaming nozzle 82 is insufficient, the detergent bubbles are caused to rise along the dehumidification longitudinal passage 21, and the dehumidification longitudinal passage 21 is expanded in the expansion air passage portion 84. The cross-sectional area of the road, so the rise of the lotion bubble is suppressed here. Thereby, the problem that the lotion bubble flows into the heater element 22 and the drying filter can be prevented in advance. The dehumidification longitudinal passage 21 has a lint removal window 90 as shown in Figs. 5 and 7. This lint removal window 90 is an expansion air path portion 84 provided on the outer frame 1. The window cover 91 is detachably provided in the lint removal window 90. The window cover 91 is screwed to the outer frame 1 by the fixing bolts 92, as shown in Figs. 8, 9, 10, and 11, at a position facing the lint removal window 90. There is an outer window 93. The outer cover 94 is detachably provided to the outer window 93. The outer cover 94 is screwed and fixed by the outer fixing bolt 95'. The outer circumference ' of the outer window 93 is as shown in Fig. 9, which is larger than the outer circumference of the window cover 91. In the drying operation, the drying air is circulated to the longitudinal passage 21 for dehumidification. The lint, which is entangled by the drying air, is collected by a drying filter to be described later, and is also retained in the expanding portion -12-1360596 portion 84 of the flow of the drying air. The lint remaining in the expanded air passage portion 84 is preferably removed. The fixing bolt 95 is loosened, the outer cover 94 is removed, the fixing bolt 92 is lowered, and the window cover 91 is removed. Further, the outer window 93 and the lint removal window are placed to remove the lint remaining in the expanded air passage portion 84. When the window cover 91 is attached, the fixing bolt 92 is tightened, and the outer window 93 is attached. The outer fixing bolt 95 is screwed, and the maintenance of the lint remaining in the expanded air passage portion 84 is completed. In this way, the removal of the lint remaining in the expansion air passage portion 84 can be easily and easily performed from the outside of the washing machine outer frame 1 by removing the outer cover 94 and the window cover 91. Further, since the periphery of the outer window 93 is larger than the outer periphery of the window cover 91, the window cover 91 can be taken out of the outer frame 1 through the outer window 93. Since the window can be completely removed by the ji, the removal of the lint can be easily performed. The drying filter (dry filter unit) will be described with reference to Figs. 15 to 21 . The drying filter (drying filter device) 100 is located between the drying air circulation paths of the drying mechanism 9. The drying filter (drying filter device) 100 functions as a dry lint removing means for collecting and removing lint transported by the drying gas flowing through the drying air circulation path. A drying filter device 1 is provided between the drying air outlet 86 of the wet longitudinal passage 21 and the flow side (suction side) of the warm air module 22. As shown in Fig. 15, the drying filter device 1 has a body frame body 101, and a cover for drying the outer outer cover 90 which can be pulled out/pressed toward the main body frame 101, The ort diagram machine is empty except for the above-mentioned 13-13360596 filter housing 102. The filter housing 102 has a front side frame portion 103 and a filter frame portion 104. The filter frame portion 104 is an inflow port 106 having a flow of drying air in the rear portion, and a filter 107 for collecting the lint pieces on the upper surface. The front operation panel 108 of the front side frame portion 103 is a handle 109 having a notch shape at the lower portion. The handle 109 is gripped, and the drying filter housing 102 is inserted into the main body casing 101. The filter housing 102 is dried to provide a detachment stop means 110 on both side faces of the front side frame portion 103. The drying filter housing 102 that is press-fitted to the main body housing 101 is held by the detachment stopping means 110 so as not to be detached, and the detachment stopping means 110 is held as shown in Fig. 16, Fig. 17, Fig. 18 As shown in Fig. 20, the anti-slip member 111 made of rubber, the pressing pin 112, and the fixing member 113 are provided. The anti-slip member 111 is a head portion 114 having a spherical shape on the front side, a crucible 115 having a peripheral ring shape on the rear side, and a recess 116 that is recessed from the rear side toward the front side. The fixing member 113 has a stopper portion 117 for receiving the rear portion of the pressing pin 112 at the center, and has a pair of locking claws 118 on the outer peripheral side. As shown in FIG. 17 and FIG. 21, the front side frame portion 103 has a through hole 119 for fitting the head portion 114 of the anti-slip member 111 on both side surfaces, and has a locking claw 118 for fixing the fixing member 113. The pair of engaging grooves 120. The pair of engaging grooves 120 are disposed around the through hole 119 and have an arc shape. The engaging groove 120' has a through groove portion and a non-14-1360596 through groove portion as shown in Fig. 21. The through groove portion ' is a size that allows the locking claws 118 of the fixing member 113 to be inserted. The locking claws 118 are engaged with the remaining non-through grooves. The groove depth of the non-penetrating groove portion is such a degree that the engaged locking claws 118 are not exposed from the engagement groove 120 or slightly exposed (Fig. 18). The assembly of the detachment stopping means 110 is performed from the inner side of the front side frame portion 103 as shown in Fig. 19. The anti-slip member 1H is inserted from the head portion 114 toward the through hole 119. Next, the pressing member 112 is inserted into the recess 116 of the anti-slip member 111 to mount the fixing member 113. The fixing member 113 is inserted into the through groove portion of the engagement groove 120 after the locking claw 118 is inserted, and the locking claw 118 is twisted to sit on the non-penetrating groove portion of the engagement groove 120. When the drying filter housing 102 is press-fitted into the main body housing 101, the anti-slip member 111 that protrudes from the side surface of the drying filter housing 102 is pressed against the inner wall surface of the main body housing 101. The anti-slip member 111 is twisted and pressed by the elastic deformation of the rubber. The frictional force of the rubber generated by the elastic deformation causes the anti-slip action to be strongly actuated, and the filter housing 102 is kept dry so as not to come out of the main body casing 101. Further, since the anti-slip member 111 is pressed from the inside by the pressing pin 112, the head portion 114 is strongly pressed against the inner wall surface of the main body casing 101, and the anti-slip effect by the strong friction is maintained. Therefore, even if the washing and drying machine is operated to vibrate or the like, the installation of the drying filter housing 102 is not released and peeled off. Further, the installation and maintenance of the drying filter housing 102 is caused by the anti-slip action of the friction of the anti-slip -15-1360596 member 111. Therefore, since the drying filter housing 102 is attached and detached by the drawing/pressing operation of the drying filter housing 102, the loading and unloading operation is easy unlike the mechanical holding mechanism with which the turning operation is performed. Further, since the detachment stopping means 110 is assembled only by inserting the anti-slip member 111 and the pressing pin 112 and inserting the locking claws 118 of the fixing member 113 into the engaging grooves 126, the assembly is simple. Further, the locking claws 118 that are engaged with the engaging grooves 120 are not exposed to the engaging grooves 120, or are slightly exposed. Therefore, even if the head portion 114 of the anti-slip member 111 is deformed and crushed, the locking claw 118 does not abut against the inner wall surface of the main body casing 101, and the strong friction generated by the head portion 114 of the anti-slip member 111 is generated. The anti-slip effect is maintained. Further, in the above-described embodiment, the detachment stop means 110 is provided in the dry filter housing 102, and the anti-slip member 111 of the detachment stop means 110 is slidably attached to the inner wall surface of the main body casing 101, but the detachment stop means 110 is replaced. The cost body frame 101 is also possible. In other words, when the anti-slip member 111 is configured to be slidably opposed to one surface of the main body casing 101 and the drying filter casing 102 (for example, the inner wall surface of the main body casing 101), the drying filter frame can be realized. The body 102 is stopped. The heater components are described with reference to Fig. 12, Fig. 13, and Fig. 14. The heater unit 22 includes a front side unit case 200, a rear side unit case 201, a blower fan 202, and a heater 24 for heating. The front side component case 200 and the back side component case 20 1 are combined to form a module case. Inside the casing -16-1360596, a blower fan 202 and a heater 24 for heating are provided. This heater 24 uses a PTC thermistor. The heater 24 of the long PTC thermistor having a rod shape contacts the plurality of fins and heats the air supplied from the blower fan 202. The front side unit case 200 and the rear side unit case 201' have a case portion 204 in which the blower fan 202 is built, and a heater chamber 205 in which the heater 24 is built. The blower fan 202 is a turbine fan that rotates at a high speed in the direction of the P arrow. The wing 212 of the turbofan has a circular arc shape, and the twelve wings 212 are arranged at equal intervals. The blower fan 02 is driven by an electric motor. The air blowing fan 202 and the electric motor are collectively referred to as an electric air blower. The front side unit case 200 has a suction port 206 and a discharge port 207. The suction port 206 is located at the center of the outer casing portion 204 so as to face the center of the suction side of the blower fan 202. The discharge port 207 is disposed at a position of the heater chamber 205 which is the downstream side of the heater 24. The suction port 20 6 is connected to the dehumidification longitudinal passage 21 via a drying filter (dry filter device) 100. The discharge port 207 is in communication with the connection circulation path 25 of the drying air circulation path. The outer casing portion 204 has a discharge port 208. The discharge port 208 has a rear side end portion 209 which is a rear side and a front side end portion (nose portion) 2 1 0 which is a front side with respect to the rotation direction of the blower fan 202. The rear end portion 209 is adjacent to the outer circumference of the blower fan 202. The rear end portion 209 is separated from the outer circumference of the blower fan 202. Therefore, the gap between the inner circumference of the outer casing portion 204 and the outer circumference of the blower fan 202 is a shape of an involute which gradually expands from the rear end portion 209 toward the nose portion 210. -17- 1360596 The flow rate distribution from the discharge port 208 by the rotation of the blower fan 202 is a state in which the rear end portion 209 is large and the nose portion 210 is small. Here, in order to make the flow rate distribution uniform, the ridge portion 211 protruding toward the nose portion 210 so as to narrow the discharge port 208 is provided on the rear end portion 209 side. The raised portion 211 is located between the rear end portion 209 and one end portion of the heater 24, and the surface faces the center of the rear end portion 209 to have a high bulge shape. As described above, in the discharge port 2 08, the ridge portion 211 protruding so as to narrow the discharge port 208 toward the nose portion 210 is provided at the rear end portion 209 located on the opposite side of the nose portion 210, because the heater 24 is made to face the heater 24 The distribution of the air supply is such that the rear end portion 209 and the nose portion 210 are uniformly accessed, so that the heating range of the heater 24 is uniform as a whole, and the heating of the dry air is well performed. Regarding the static electricity removal, description will be made with reference to Figs. 22 to 28. The outer tank upper cover 3, which is supported by the upper end line portion of the outer tub 2, has an annular cover portion 301 and a semicircular cover portion 312. The annular cover portion 30 1' covers the upper portion of the front portion of the outer tub 2 and the inner tub 3 except for the rear portion. The semicircular cover portion 032 covers the upper side of the rear portion of the outer tub 2 and the inner tub 3. The annular lid portion 30 1 is an inlet/outlet 303 in which a large opening on the inner peripheral side serves as a laundry. The door 303 is opened and closed by the inner lid 34, and the lid portion 301 and the semicircular lid portion 302 are integrally formed using an SPS (synthetic resin) material. The lid portion 301 and the lid portion are conventionally known. 302 is formed from a punching product of stainless steel plate. Since it is a molded article of SPS (Synthetic Resin -18-1360596) material, productivity is further improved and also reduced. Further, since the SPS (synthetic resin) material is excellent in moldability, it can withstand high temperatures for drying operation. The inner lid 34 is opened and closed by the hinge 304 in the outer tank upper cover 300. The inner lid 34 is a cover 306 made of a synthetic resin made of a stainless steel plate and has a heat-resistant glass window 307. The cover 306 and the reinforcing frame 305 are screw-tightly combined, and the transparent window 307 is one end of the reed member 309 which is made of metal (stainless steel) or energized material by the cover 306 and the reinforcing frame, as shown in Fig. 26. The hub portion 310 of the 28th cover 306 is screwed up by the complement of the bolt 317. The other end of the reed member 309 is screwed together by the reed bolt 312 at the reed. Reed bolts 3 metal (not steel) or energized material. The conductive rubber member 313 of the thin plate piece is provided in the vicinity of the hinge 304 of the cover 300. As shown in Figs. 25 and 27, the rubber member 313 and the reed bolt 312 are provided in the vicinity of the 1 rotation shaft 314. Therefore, when the 27th and 28th drawings 34 are opened, the reed bolt 312 is separated from the conductive rubber. This is by closing the inner lid 34. As shown in Fig. 25, the head of the reed bolt 312 is electrically connected to the conductive rubber member. One end of the sheet member 315 made of metal (stainless steel) or an energized material is a connection with the conductive rubber member 313 which is excellent in weight reduction and is heat-resistant to be supported by a strong frame 306. . As shown in the figure of static electricity removal, in the case of the strong frame 305, the hub portion 311 12 is shown on the outer groove, and the conductive hinge 304 is shown, and the inner cover rubber member 313 is abutted and externally 313. The spring used is fixed to the outer tank upper cover 3 00 together with the conductive rubber -19-1360596 rubber member 313. At the other end of the reed member 315 is provided a connection terminal 316 through which the connection terminal 316 is grounded to the outer frame 1. In the drying operation, the stirring blade 4 is stirred and rotated in the inner tank 3. When the static-charged laundry is in contact with the inner lid 34, the static electricity is via the inner lid 34, the reed member 309, and the reed bolt 312. The conductive rubber member 313 and the reed member 315 are discharged toward the outer frame 1. By such discharge, the static electricity carried by the laundry in the drying operation is neutralized, so that the electric shock when the laundry is taken out after the drying operation can be eliminated. In the above-described neutralization mechanism, the reed bolt 312 for stopping the reed member 309 provided in the inner lid 34 is provided in the vicinity of the rotation shaft 314 of the hinge 304, so that the reed bolt 312 is opened and closed according to the opening and closing of the inner lid 34. The head-coupled conductive rubber member 313 is provided on the outer tank upper cover 300. This configuration is different from the case where the inner cover side and the outer cover upper cover side are connected by wires, and the damage caused by the return bending of the wire which is closed with the opening of the inner cover does not occur. Since the reed bolt 312 and the conductive rubber member 313 are provided in the vicinity of the rotating shaft 314 of the hinge 304, unlike the hinge 300, the outer portion is not exposed. Therefore, when the laundry is taken in and out, the laundry is not damaged by the contact reed bolt 312 and the conductive rubber member 313. The bath water sterilization device will be described with reference to Figs. 29 to 32. The bath water sterilization device 400 is connected to the front end of a suction pipe extending from a bath water pump (not shown) -20 - 1360596. In the washer-dryer, since the bath water is sucked through the bath water sterilization device 400, the laundry can be cleaned by the sterilized bath water. The bath water removing device 400 includes a sterilizing cassette 401, an upstream side foreign matter removing filter 402, a downstream side foreign matter removing filter 403, an intake cap 404, a filter press 405, and a body hammer 406. The body hammer 406 is made of a heavy material that sinks into the water, and a suction pipe is inserted into the rear portion, and a suction cap 404 is screwed into the front side. Further, the suction cap 404 houses a sterilization cartridge 401, an upstream foreign matter removal filter 402, a downstream foreign matter removal filter 403, and a filter press 405. The sterilizing cassette 40 1 has a cylindrical body 407 made of a synthetic resin, a granular sterilizing agent (not shown) that is clogged in the inside of the cylindrical body 407, and a granular sterilizing agent. The synthetic resin of the cassette cover 408. The cylindrical body 407 is a partition portion 409 having a plurality of water-passing holes (water-passing holes smaller than the particle diameter of the granular sterilizing agent) in the center of the inner side. In this partition 409, the inside of the cylindrical body 407 is divided into two chambers in the axial direction. The partition 409 is formed integrally with the cylindrical body 407. The partition portion 409 has a plurality of water passage holes (water passage holes smaller than the particle size of the granular sterilizing agent). The plurality of struts 410 extending from the partition portion 4〇9 to the vicinity of the rim portion of the cylindrical body 407 are provided in the two chambers. Further, the plurality of pillars 410 are provided one at the center of the partition portion 409 and four at the periphery. But setting more roots is fine. The cassette cover 408 is a water-passing hole (a water-passing hole having a smaller particle diameter than the particle-shaped sterilizing agent -21 - 1360596), and the outer periphery is fitted to the inner side of the cylindrical body 407. When the cassette cover 408 is embedded, it is received by the front end of the plurality of struts 410. Further, the cassette cover 408 is locked by the engaging means of the cassette cover so as not to be easily detached. The sterilizing cassette 401 is filled with a granular bactericide when it is sterilized, and is divided by the cassette cover 408 and the partition 409. The outer side of the cassette cover 408 is the upstream side end surface of the sterilizing cassette which becomes the bath water flowing into the sterilizing cassette. The outer surface side of the partition portion 409 is a downstream side end surface of the sterilizing cassette which is discharged from the bath water from which the sterilizing cassette is sterilized. Next, the bath water that has entered the bath water sterilization device 400 by the water passing hole of the suction cap 04 is removed from the foreign matter by the upstream side foreign matter removing filter 402, and is granulated by the sterilizing cassette 40 1 . The fungicide is sterilized. Further, the downstream side foreign matter removing filter 403 further removes foreign matter so that the sterilized bath water free from foreign matter can be supplied to the washing and drying machine. The upstream side foreign matter removing filter 402 is held between the cassette cover 408 and the front side of the suction cap 404, so that this state is maintained. Therefore, since the position does not deviate, the foreign matter removal by the upstream side foreign matter removing filter 402 can be favorably performed. The downstream side foreign matter removing filter 403 is held between the plurality of pillars 410 and the filter presses 40 5 because it is held between the plurality of pillars 4 10 and the filter presses 40 5 . Therefore, since the position does not deviate, the foreign matter removal by the downstream side foreign matter removing filter 403 can be favorably performed. Further, the downstream side foreign matter removing filter 403 also has a function of capturing a granular sterilizing agent. When the granular bactericide is discharged from the sterilizing cassette 401, the -22-16060 granule sterilizing agent is captured by the downstream side foreign matter removing filter 403. Granular fungicides are of various types. Particles such as metal or glass are formed by the incorporation, mixing, and the like of the silver ions. The sterilizing agent of the hard particles flows out of the sterilizing cassette 401. Since the downstream side foreign matter removing filter 403 is caught, the breakage of the flow tank provided in the bath water pump can be avoided. Further, the foreign matter removing pores of the downstream side foreign matter removing filter 403 are smaller than the foreign matter removing pores of the upstream side foreign matter removing filter 402. Therefore, it is possible to remove fine foreign matter which cannot be removed by removing the foreign matter from the upstream side foreign matter. When the sterilization effect of the granular bactericide is lowered, the granular bactericide is renewed. The cassette cover 408 of the sterilization cassette 401 is locked by the engagement means. Therefore, the cartridge cover 408 is not detached by simply pulling out/installing the sterilizing cartridge 401 from the bath water removing device 400, and the loading and unloading operation is easy. Further, since the cassette cover 408 which is inserted when the cassette cover 408 is attached is attached by the engagement means at the position where the front end of the plurality of columns 410 is attached by the renewal of the granular sterilizing agent, assembly is easy. Regarding the sterilization performance and the flowability of the further bath water sterilization apparatus, reference is made to Figs. 29 and 60, and the diameter of the sterilizing cassette 401, that is, the diameter of the cylindrical body 407 is 38 mm. The diameter P 2 of the thin flow path connected to the downstream side passage through which the sterilized bath water flows in the sterilizing cassette 401 is about 12 mm. The diameter Φ2 of the thin flow path is connected to the suction pipe. The upstream side end surface of the sterilizing cassette 401, that is, the outer surface of the cassette cover 408 and the gap of the opposite side of the upstream side foreign matter removing filter 402, that is, the upstream -23-1360596 side gap length D1 is about 5 mm. The downstream surface of the sterilization cartridge 401, that is, the outer surface of the partition portion 409 and the gap on the downstream side of the downstream side foreign matter removed 403, that is, the length D2 of the downstream side gap is: degree. By the sterilizing cassette 401, the downstream flow path of the sterilized bath water is gradually thinned from the middle, and the diameter is stopped at the front end. <p2 is connected in a way that the flow paths are connected. The length D3 from the position where the downstream side passage is tapered to the downstream end surface of the sterilizing cassette is about 30 mm. The length D4 from the upstream side end surface of the sterilization 40 1 (outer side surface of the cassette cover 408) to the downstream surface (outer side surface of the partition portion 409) is 15 mm, and the downstream end surface of the sterilization cartridge 401 (the partition portion 409) The degree D2 is about 15 mm until the upstream side end surface of the downstream side foreign matter removing filter 403. D5 which is thinned from the downstream side passage until the downstream side end surface of the downstream side foreign matter removing filter 403 is about 10 mm. The length g of the range in which the downstream side passage is tapered is about 10 mm. A gap having a width of D1 (about 5 mm) is provided on the opposite surface of the upstream side end surface of the sterilizing cassette 40 1 and the upstream side foreign matter remover 402 by 'to remove the residual water of the bath water removing device 400 and the suction tube. A gap having a width D2 (about 15 mm) is provided on the opposing surface of the downstream side end surface of the sterilizing cassette 40 1 and the downstream side foreign matter remover 403 to remove the residual water of the bath water sterilization apparatus 400 and the suction tube. The sterilizing cartridge 401 and the upstream and downstream side foreign matter removing filter are too connected. The side end filter 5mm side pass thin 40 1 匣 side end degree side long position length t D6 filtering. In the case of the water film formation, the circulation of the air is blocked and remains in the bath water. The sterilization device 400 cannot be drained. Here, the gap between the sterilizing cassette 401 and the upstream-side foreign matter removing filter is not formed by providing the water film, and the circulation of the air is not blocked, and the residual water can be removed. When the residual water is retained in the bath water sterilization device 400, since the sterilizing component is melted from the sterilizing agent in the sterilizing cartridge 401, the sterilization efficiency is lowered early. Further, if the melted high-concentration sterilizing component adheres to the laundry in the laundry, the fabric may be discolored. By draining the remaining water in the bath water sterilization device, it is possible to eliminate the problem of early decline in the efficiency of the bacteria and discoloration of the clothes. Further, the effect of removing the residual water is more effective than the securing of the gap on the side of the filter on the upstream side of the upstream side. Further, as shown in Fig. 32, the cassette cover 408 has an annular ring that rises toward the front side on the outer peripheral edge portion than the outer side surface on which the plurality of water-passing holes are provided. By the annular ring, the upstream side foreign matter removing filter 402 is received to maintain the gap between the outer side surface of the cassette cover 408 (the upstream side end surface of the sterilization cassette 40 1). The gap can be maintained by such a simple configuration. Fig. 60 is a graph showing the flowability. This graph shows the position where the length D4 from the upstream side end surface of the sterilizing cassette 40 1 to the downstream side end surface is 15 mm, and the position becomes thinner from the downstream side passage until The length D3 of the downstream end surface of the sterilizing cassette 401 is the amount of water flowing per unit of the sterilizing cassette 401 when the range of 0 mm to 30 mm is changed. The flow rate of this 9 L/min is the same as that of the conventional bath water supply device (strainer) which does not have a sterilizing cassette. From this graph, it can be seen that if the length D3 is shorter than the length D4 (15 mm) -25- In the case of 1360596, the amount of water circulating in the sterilizing cassette 401 will decrease. Since the bath water is supplied to the washing machine through the bath water removing device 400, the water supply time of the washing and washing is prolonged when the flow rate of the sterilizing cassette 401 is lowered. When the relationship between the length D3 and the length D4 is D3 > D4 or D3 = D4, even if the sterilization card 401 for sterilizing the bath water is provided, the conventional bath water supply device (strainer) can be secured. The same amount of liquidity. Therefore, it is possible to provide a bath water sterilization device capable of removing the bath water without extending the water supply time of the washing and cleaning. The laundry thread removing device, the foreign matter collecting and deodorizing valve, and the washing and washing are described with reference to Figs. 33 to 43 and Fig. 2 and Fig. 3 . The laundry thread removing device 33 is located on the upper side of the inner tub 3, that is, below the lid portion 302 of the outer tank upper cover 300, as shown in Figs. 1 to 3 and Figs. 3 to 36. The laundry thread removing device 33, as shown in Figs. 37 to 41, has a washing thread collecting case 500 and a holding case 501 for holding the laundry chip collecting case 500. The laundry chip removing device 33 is fixed to the outer tank upper cover 3 00 as shown in Fig. 36 by the holding case 501 being screwed to the lower surface of the covering portion 302. The holding case 501 has a bolt boss portion 502 through which a fixing bolt passes as shown in Fig. 37. The laundry thread collecting casing 500 is detachably attached to the holding casing 501» to pull out, and the laundry thread collecting casing 500 is slidably slidably attached to the holding casing 501. The laundry thread collecting case 500 is a peripheral wall 504 which rises from the bottom 503 as shown in Figs. 37 and 38. The laundry thread catching cages 505, 26-1360596 are detachably disposed in the peripheral wall 504. The cage 506 is detachable in the laundry chip catching cage 505. The holding case 501 is a cover pressing rib 507 having a hanging. The lower end of the rib 507 is slidably abutted on the upper surface of the cage 506. Since the cover 506 is pressed from the upper side by the rib 507 when the laundry thread collecting case 500 is installed in the holding case 501, it does not fall off by the vibration of the washing operation and the inflow of the circulating washing water. The holding case 501 is an injection port 508 having injected circulating laundry water. The circulating washing water injected from the injection inlet 5 08 is injected into the inner tank 3 from the flushing port 509 through the washing thread catching cage 505. The circulating washing water flowing in from the injection port 508 has an inflow port 510 provided in the cage cover 506. The rinsing port 509 is formed in a circular shape and formed downward. The diameter of the circular flushing port 509 is about 19 mm, preferably 30 mm to 10 mm. The rib 5 07 also becomes a weir that guides the circulating washing water flowing from the inlet port 508 to the inflow port 5 10 . The outflow of the circulating washing water other than the inlet 5 1 0 is blocked by the ribs 5 07, so that the chips contained in the circulating washing water can be satisfactorily blocked. Since the cage 506 has a fitting groove at the lower end of the rib 507, the dam can be further favorably performed. The holding case 501 is a sealing sleeve 51 1 (shown in Fig. 27) provided on the lower surface in such a manner as to face the peripheral wall 504. Since the upper end of the peripheral wall 504 is tightly sealed to the sealing sleeve 51 and the flow of water is closed, the circulating washing water injected into the washing thread collecting casing 500 will not leak out and can be guided to the flushing port. 5 09. -27- 1360596 The flushing port 509 is provided at the center bottom of the flushing flow chamber 540 surrounded by the circular peripheral wall 504. The flushing inflow chamber 540 has an inflow port 541 at the side. The width of the inflow port 541 is circular and narrower than the flushing inflow chamber 540, which is about 1/4 of the diameter of the flushing inflow chamber 540. The direction of the inflow port 541 is the eccentricity of the center of the flushing port 509 and the wiring direction of the inner peripheral wall surface of the flushing inflow chamber 540. The inlet water passage 542 that is the upstream of the inflow port 541 has a shape that is narrowed toward the inflow port 541. The washing water flowing into the flushing inflow chamber 540 is rotated in the flushing inflow chamber 540 because the inflow port 541 is in the wiring direction of the inner peripheral wall surface of the flushing inflow chamber 540. Further, since the introduction water passage 5 42 is narrowed toward the inflow port 54 1 , it becomes a revolving flow with a fast flow. The laundry thread collecting case 500 is provided with an operating lever 512 on the front side as shown in Figs. 33 to 37 and 39 to 41. The operating lever 512 is rotatably supported by the laundry thread collecting case 50 0 . A groove engaging portion 513 is provided at both ends of the operating lever 512. The holding case 501 is on the front side and has a pair of protruding ribs 514 facing each other at both ends of the operating lever 512. The protruding rib 514 is provided with a locking portion 515 for locking the engaging portion 513 of the groove. The operation lever 512 has a center that is rotatably supported on the front side of the laundry chip collecting case 500, but may be provided with a pivot point at a position deviated from the center. The lever engagement means formed by the engagement portion 513 and the locking portion 515 is engaged and disengaged by the twist of the operation lever 512. The engagement is performed by rotating the operating lever 512 in the clockwise direction, and as shown in Fig. 40, the -28-1360596 σ portion 513 and the locking portion 515 are engaged. By rotating the operating lever 512' in the counterclockwise direction, the engaging portion 513 is disengaged from the locking portion 515 as shown in Fig. 41, and is disengaged. In other words, the operation lever 512 is engaged with the lever engagement means in the horizontal state shown in Fig. 33. The operation lever engagement means is disengaged in the inclined state shown in Figs. 34 and 35. The cleaning of the laundry thread collecting casing 500 is performed by twisting the operating rod 512 to disengage the operating rod engaging means by the engagement of the engaging portion 513 and the locking portion 515, and the laundry thread is removed. The trap case 500 is removed from the holding case 5〇1. When the sweeping is completed, the laundry thread collecting case 5 is attached to the holding case 501. Further, the operation lever 512 is twisted to engage the engagement portion 513 and the locking portion 515, and the engagement of the operation lever engagement means is completed to complete the installation of the laundry thread collecting casing 500. The operating lever 512 of the laundry thread collecting casing 500 is in the operation of the washer-dryer, and since it is restrained from being twisted, the laundry thread collecting casing 500 does not fall off. The inner lid 34 is such that the lid portion 302 of the outer lid upper cover 300 is supported by the hinge 304 so as to be openable and closable as described above. The hinge 34 is freely opened and closed so that the front side of the inner cover 34 ascends and descends as a fulcrum. An operation lever 512 of the laundry thread collecting casing 500 is provided at a position near the lower side of the rear side of the inner lid 34 (as shown in Figs. 33 to 36). When the inner lid 34 is closed, as shown in Fig. 3, the lower side of the inner lid 34 is brought close to the upper surface of the operating lever 512. The approaching of the lower side of the rear side of the inner lid 34 causes the twisting of the operating lever 512 to be restrained. By the constraint of the reverse action of -29- 1360596, the engagement of the lever engagement means is not released. Therefore, even if the laundry that is circulated in the inner tub 3 during the operation of the washer-dryer collides with the operating lever 512, the engagement of the lever engagement means is not released, and the laundry chip trap casing 500 can be prevented. Natural shedding. By the opening of the inner lid 34, as shown in FIGS. 33 to 35, the twisting restriction of the operating lever 512 is released, so that the engagement of the operating lever engagement means is released, and the laundry thread collecting shell can be removed. 500 is removed for sweeping. The torsion restraint of the operating lever 512 is caused by a torsion restraint mechanism (torsion restraining means) constructed in association with the opening and closing operation of the inner lid 34, and is simpler than a complicated mechanical mechanism, and only the inner cover is used. The opening and closing of the 34 can restrain/release the twisting of the operating lever 512, and it is convenient to use. In the washing machine of the above embodiment, the front side is driven upward and downward, and the rear side is rotatably supported on the outer tank cover. 3 00, the laundry inlet and outlet 3 03 is opened to close the inner lid 34; and under the outer tank upper cover 300, the laundry thread collecting casing 500 is a laundry thread removing device that is freely held in the holding shell 501. 33. In the washing machine, the laundry thread removing device 33 is rotatably supported by the laundry thread collecting casing 500 with the center as a pivot point, and has a locking and disengaging function for holding the casing 501 by the twisting operation. The operation lever 512 and the position of the operation lever 512 in relation to the inner lid 34 are such that when the inner lid 34 is closed, the inner lid 34 approaches and restrains the twisting operation, and when the inner lid 34 is opened, the restraint is released. When the inner lid 34 is closed, the inner lid 34 approaches and restrains the operation of the twist -30-1360596, and when the inner lid 34 is opened, the position of the inner lid 34 is released, and the laundry thread removing device is used. The arrangement position of '33' can appropriately select the position of the fulcrum in which the inner cover 34 is rotatably supported. The foreign matter removal deodorizing valve and the circulation pump are as shown in Fig. 42 and Fig. 43. The foreign matter removing deodorizing valve 32 is provided with a deodorizing valve casing 520 and an anti-odor valve inner casing 52 1 . The inflow port 522 of the deodorizing valve casing 520 is connected to the lower communicating pipe 41. The discharge port 523 of the deodorant valve housing 520 is in communication with the circulation pump 45. The deodorizing valve inner casing 521 has a foreign matter removing and deodorizing valve portion 524 inserted into the deodorizing valve casing 520 and a picking portion 525 provided on the front side. The pick portion 5 25 is gripped, and the deodorizing valve inner casing 521 is taken in and out of the deodorizing valve casing 520. The deodorizing valve inner casing 521 is provided with a bayonet type loading and unloading mechanism which can be attached and detached by twisting. The front side inlet and outlet of the deodorizing valve casing 520 is provided with a sealing sleeve to prevent water leakage from the joint portion with the deodorizing valve inner casing 521 to be installed. The foreign matter removing deodorizing valve portion 524 of the deodorizing valve inner casing 521 has a cylindrical shape having an introduction port at the rear portion and a small hole 526 at the front side peripheral portion. The foreign matter in the deodorizing valve portion 5 24 is removed from the inlet port, and the foreign matter in the deodorizing valve portion 5 24 is removed, so that the outlet is the small hole 5 26 provided in the peripheral portion of the front side, so that the odor is deodorized. Therefore, the washing water which removes the foreign matter in the circulation pump 45 is supplied with water, and the circulation pump 45 is protected from foreign matter. The circulation pump 45 has a centrifugal pump unit including a pump casing 527 and a pump flow tank 529, and a motor 530 for driving. The suction port 528 of the pump casing 527 is in communication with the foreign matter removing and deodorizing valve 32. The discharge port 535 of the pump casing 527 is in communication with the wash water circulation water passage 43. -31 - 1360596 The motor 530 is a variable speed motor driven by a DC inverter whose number of revolutions can be changed. The change in the speed of the motor 530 causes the number of revolutions of the pump flow tank 529 to change, which is a change in the amount of circulating washing water. Fig. 2 and Fig. 3 show the washing and washing. Rinse and wash, while washing and washing the laundry by the stirring blade 4, rinse the washing water from the laundry. The laundry which is exposed to the surface of the washing water by water saving can be cleaned without a spot by washing with a washing water while stirring. Fig. 2 is a view showing flushing washing when the amount of laundry is large, and the amount of washing water is increased by increasing the operating speed of the circulation pump 45, and is flushed from the flushing port 509 (shown in Fig. 37) in the inner tank 3. The breadth of 531 becomes larger. This rinsing 531 is formed such that the film is expanded in a conical shape and the laundry water is dispersed in the laundry existing in the vicinity of the outer periphery of the inner tub 3. The rinsing of the conical shape of the film is as described above, and the rinsing from the rinsing port 509 is generated by a rapid flow of the flow. Therefore, the breadth of the flushing is changed in accordance with the amount of supplied water supplied from the circulation pump 45. Therefore, when the operation speed of the circulation pump 45 is lowered to reduce the supply amount of the washing water, the breadth of the flushing 532 becomes smaller as shown in Fig. 3. In the small extent produced by the flushing 5 32, the washing water is dispersed in the laundry existing in the central portion of the inner tub 3. The wide-ranging flushing 531 is performed by the motor 530 operating at 2800 rpm, and the small-wide flushing 532 is performed by the motor 530 running at 1600 rpm. This flushing is performed by changing the supply amount of the washing water -32-1360596 supplied to the flushing port 509, so as to be spread from the central portion of the inner tub 3 and in a wide range around the outer periphery of the inner tub 3. Laundry water. Further, since it flows out from the flushing port 509 which becomes a circular shape, unlike the rain dew, the clogging of the lint does not occur. However, because of the conical washing of the film, no washing water is scattered outside the contour of the cone. Here, the rinsing washing performed in the washing operation is carried out without leaking and uniformly dispersing the washing water in the entire laundry which is present in the inner bottom of the inner tank 3. In other words, the dispersion movement of the washing water that traverses the outer circumference from the central portion of the inner tank 3 does not stop, and the distribution of the washing water can be made to the entire laundry which is present in the inner bottom of the inner tank 3 by the returning method. And homogenization. Fig. 59 is a view showing an example in which the dispersion of the washing water is carried out uniformly and uniformly. The operation mode diagram of the waveform shows that the number of revolutions of the circulation pump changes at any time. The number of revolutions of the circulation pump is 2800 RPM higher and 1600 RPM lower. The amount of supply water of the washing water supplied to the flushing port 509 is increased at a higher number of rotations (2800 RPM). Conversely, the amount of water supplied to the washing water 509 in the lower rotation number (1 600 RPM) is reduced by 〇. The increase or decrease in the number of rotations of the high and low rotations is switched by the return of 3 seconds. The switching of the number of high and low rotations is performed by the operation control of the motor 530. The shorter the number of rotations (2 800 RPM) and the lower the number of rotations (1 600 RPM), the shorter the better, and the longer the time is less than 1 second. In this way, the amount of supply water supplied to the flushing port 509 is continuously increased or decreased, and the dispersion movement of the washing water across the outer periphery from the central portion of the inner tank 3 is not -33 - 1360596, and is stopped, and is present in the inner tank. The laundry of the insole of 3 can completely and uniformly disperse the distribution of the washing water. Since the operation control of the motor 530 is switching between high and low rotation numbers, complicated operation control and control means are not required, and it can be a simple control device. Because of the inertia of the motor 530 and the pumping groove and the resistance of the water present in the circulating pump, the change in the number of revolutions of the circulating pump does not immediately respond to the switching of the number of high and low revolutions, but the number of revolutions of the inclined slope according to the illustration. Variety. Therefore, a simple control device that switches only between the high and low rotation numbers can realize a uniform and uniform laundry water dispersion. In the embodiment shown in Fig. 59, although the operation is controlled by a higher rotation number (2 800 RPM), a lower rotation number (1600 RPM), and a three-second interval return switch, the basis is The size (diameter) of the inner tank, the capacity of the circulation pump, the motor, and the like can be appropriately determined. The necessary condition is to make the spread of the washing water across the entire bottom of the inner tank not uniform and uniform, and to continuously increase or decrease the amount of supply water supplied to the flushing port 509, so as to continue from the center of the inner tank. The spread of the laundry water across the periphery is constantly moving back. The control circuit, the operation panel, and the laundry operation of the washer-dryer are described with reference to Figs. 44 to 46. The control circuit shown in Fig. 44 has a main control circuit 600 which is a main part of the microphone port computer, a load drive control circuit 601, a power supply circuit 602, and an automatic OFF (OFF) relay 603, which are powered by commercial AC power. 604 is powered. -34- 1360596 In the main control circuit 600, the load drive control circuit 601, and the power supply circuit 602, power is supplied via the automatic OFF (OFF) relay 603. The power supply circuit 602 converts the alternating current into direct current and supplies it to the main control circuit 600. In the load drive control circuit 601, a water supply valve 7, a soft post-treatment valve 605, a lotion melting valve 606, a cooling water valve 607, a drain valve 44, a washing and drying drive motor 10, a clutch 608, and a cover locking mechanism are connected. 609. Various devices such as the electric blower 610, the circulation pump 45, and the heater 24. The load drive control circuit 601 controls the energization of various machines in accordance with an instruction from the main control circuit 600. In the main control circuit 600, a plurality of operation switches 612, a water level sensor 47, a temperature sensor 6 1 3, a cover opening and closing sensor 6 1 4, a non-volatile meter 615, and a sound generation are connected. The display unit 617 of the IC 616, the liquid crystal, and the like, and the buzzer 618 that is erroneously notified. The main control circuit 600 communicates various operation switches 612, various sensors, and non-volatile means 615 and information, and controls the load drive control circuit 601 and the sound generation IC 616. The main control circuit 600 instructs the display unit 617 to display the various information of the error and the buzzer 6 18 when the error occurs. The various operation switches 612 are for inputting the operation information for washing and drying, and include: a program setting switch 620 disposed on the operation panel 611 shown in FIG. 45 and FIG. 1, a cleaning switch 621, and a cleaning switch 622. And dehydration switch 623, and drying switch 624, and start/time stop switch 625, and sound switch 626' and energy-saving switch 629, and slightly -35-1360596 power (in) switch 627, and power supply (cut) Switch 628. Further, the disk 611 is provided with an operation panel 611»start/time stop switch 62 5, and is an error release switch that also has an error to be described later. In the error notification, the switch is turned off by an error, and the buzzer 618 that notifies the occurrence of the error and the display unit 6 are erroneously displayed. In the sound generation IC 616 in which the sound switch 62 6 is operated, the speaker 630, from the speaker 630, provides information on the laundry drying from the sound. The sound generation IC 616 of the sound generation means has a ROM 640, a D/A converter 641, and an AMP 642. The contents of the horn sound are constructed in the sound ROM 640, and the sound sound is generated in accordance with the instruction of the main control circuit 600. The operation of the laundry operation shown in Fig. 46 is performed in the order of the process 650, the cleaning 1 process 651, the cleaning 2 process 652, and the dehydration process 65 3 until the end of the laundry operation. This progresses toward the dry operation, but is omitted here. The cleaning process 650 is a step 6503 of step 650 1 of water supply measurement and a step 6503 of washing agitation. The cleaning 65 1 includes a step 65 of cleaning 1 drainage, a cleaning 1 de-singing 6511, a cleaning 1 water supply step 6512, a cleaning 1 stirring 6513°, a cleaning 1 dehydration step 6510, and an imbalance of rotation by the inner tank 3. If the amount of occurrence is more than the specified enthalpy, skip the cleaning 1 and stir the operation to notify the slamming pressure 17 of the wrong connection. The sound is 630. IC6 1 6 After cleaning and finally, after cleaning, the step of the process water Steps produced by the step -36 - 1360596 step 6513. The dehydration was interrupted here, and the agitation was changed to water injection. The cleaning 2 process 652 is a step 6524 of a cleaning 2 drainage step 6521, a cleaning 2 dehydration step 6 522, a cleaning 2 water supply step 6523, and a cleaning 2 stirring step 6524. In the step 2652 of the washing 2 dehydration, if the amount of unbalance generated by the rotation of the inner tank 3 exceeds the predetermined enthalpy, the step 6524 of skipping the washing 2 is skipped. The dehydration was interrupted here, and the agitation was changed to water injection. The final dewatering process 65 3 is a step 65 3 0 comprising: final drainage, and a final dehydration step 6 5 3 1 . In the final dehydration step 6 5 3 1, if the amount of unbalance generated by the rotation of the inner tank 3 exceeds the predetermined enthalpy, the step 6652 of washing the 2 water is skipped. Here, the dehydration is interrupted, and the cleaning process 6 5 2 and the final dehydration process 6 5 3 are repeated. The measurement of the amount of cloth in the cleaning process 650 which is initially carried out in the case of the laundry operation is described with reference to Figs. 50 to 54. The amount of cloth (the amount of laundry) determined based on the amount of cloth measured by the amount of cloth is determined by the calculated amount of washing and the amount of washing water. This amount of cloth is discriminated because it is a dry cloth in a dry state. Therefore, if the wet cloth is mixed, it will be judged to be more than the cloth of the dry cloth, and the amount of washing and the amount of washing water will be excessive. Here, even if the wet cloth can be used to determine the amount of the cloth without any mistake, it is possible to provide a washing and drying machine in which the lotion and the washing water are not wasted. Fig. 51 is a view showing the relationship between the measurement 値 of the q-axis current (vector control) and the amount of laundry (the amount of cloth) of the washing and drying drive motor 10. The white circle ' is the q-axis current product 値 for the amount of laundry containing the wet cloth. The black circle ' is the q-axis current -37 - 1360596 for the amount of laundry that contains only dry cloth without a damp cloth. The laundry is a small variation of the q-axis current product when the dry cloth is only dry, but the variation of the q-axis current product 値 is large when the wet cloth is mixed. Fig. 52 is a graph showing the relationship between the range of variation of the measurement enthalpy change and the amount of laundry as shown in Fig. 51 by comparison of only the dry cloth and the wet cloth. The variation range is below 20 and only dry cloth, and above 20 is wet cloth mixing. By varying the range, it can be determined that only dry cloth and wet cloth are mixed. The amount of water of the washing water used in accordance with the amount of cloth is set by the cloth amount discriminating list table (a) shown in Fig. 53 and the cloth amount discriminating list table (b) shown in Fig. 54. In addition, the amount of water (the amount of laundry) is set in accordance with the amount of cloth (the amount of laundry) that is judged. Since the cloth amount discriminating list table (b) is a wet cloth mix, the laundry amount is decreased from the cloth amount of the circle mark displayed on the corresponding dotted line toward the circle mark of the corresponding point line. In this way, the amount of water (the amount of laundry of the dry cloth) which is reduced by the amount of water contained in the mixed wet cloth is set. Thus, even if the laundry which is measured to be mixed with the wet cloth having more laundry amount than the dry cloth is set, since the amount of water which is subtracted from the amount of water to be measured due to the moisture content contained therein can be set, the washing water and the lotion can be suppressed. The superfluous use of Fig. 50 is a flow showing the discriminating of the amount of cloth. In the step 660 of the start of the discriminating determination, the number of times N is set in the step 661 of the number of measurements, and the driving motor for washing and drying is started (step 662). By: taking in the q-axis current (step 663), washing -38 - 1360596 driving of the driving motor for drying is stopped (step 664), Ν = ΝΤ1 (665), N = 0 (step 666), calculation of the variation range Η The order of (steps) goes. Further, the fluctuation range 判别 is determined to be 20 or less or more (step), and is determined as the cloth list table a (step 669) hereinafter to be determined as the cloth list table b (step 670). According to the respective layout table, the discriminating process (step 67 1 ) is passed to the discriminating final step 672). In the standard operation of the drying operation, the energy-saving operation will be described with reference to Figs. 58 to 44, and Fig. 45. The standard operation of the drying operation is the operation of (A) of Fig. 56. In the energy-saving operation, the heat-drying (strong) heat-drying operation of the heater 24 (Fig. 44) is performed in the standard operation shown in Fig. 56 (B), and the air is supplied after the drying is completed. After that. In the energy-saving operation, the heating and drying operation of the heater 24 is performed with a large heat (strong), and when it is near dry, it is switched to the weak heat-drying operation in which the heat generation amount of the heater 24 is small (weak), and after the drying operation after only the air supply is dried after drying end. Fig. 57 is a view showing the relationship between power consumption and operation in standard operation. Fig. 58 is a view showing the relationship between power consumption and time during the energy saving operation. The standard operation and the energy-saving operation are similar to each other during the operation time. However, when the heat generation amount of the heater 24 is operated by half of the energy-saving operation during power consumption, the power-saving effect can be expected. When it is close to dry in the energy-saving operation, even when it is switched to the weak heating step 667 668, the quantity is counted ( 155 · shown. The maximum cold heating completion time is in the middle of the phase minus drying • 39-1360596 operation because It is considered that the drying can be performed at a time close to the standard operation time by using the residual heat of the fully heated washing and drying machine, and it is considered that the drying can be performed at a time close to the standard operation time. Fig. 55 is a flow chart showing the energy-saving operation. In step 680, the heating and drying operation is performed in step 681 in which the electric blower 610 is turned on (ON) and the heater 24 is turned on (ON). In the step 682 where the cooling water is turned on (ON), the cooling water is from the lower portion 85 ( Dehumidification of the drying air is carried out under the flow shown in Fig. 5. Initial temperature detection (step 683) and temperature detection (step 684) 'dryness calculation (step 685) are performed successively, and the temperature and dryness are When it is determined to be close to the dryness 値D1 or more (step 686), the switch is switched to the heater 24 (step 687). Next, the temperature is detected (step 688), and the dryness is calculated (step 689). When the temperature and the dryness are determined to be the completion of the drying process 値D2 or more (step 690), the process is switched to the step 691 where the heater 24 is turned off (OFF), and the electric blower 610 is turned off (OFF) and the cooling water is turned off. In step 692 of (OFF), the drying is completed (step 693). The above-described energy-saving drying operation is set by the energy-saving switch 629 provided on the operation panel 611 shown in Fig. 45. The energy-saving drying operation and the standard drying operation are It can be selected by various switches including the energy-saving switch 629, so that the type of laundry can be appropriately selected depending on the amount of laundry. The sound guidance, display, and error generated by the sound of the operation of the washer-dryer The notification of the time is described with reference to Fig. 47 to Fig. 49, Fig. -40-1360596, and Fig. 45. Fig. 47 shows the flow of the operation start processing. ^ Various operation switches 612 (Fig. 45) (pressing), the initial setting of the operation content including the program for washing and drying and the operation operation is performed (step 70 0 ). [Start/start the switch 62 5 to start the operation (step) 701) When the sound switch 626 is pressed to the sound permission state (step 702), the sound generation IC 616 is activated, and the sound guidance from the start of operation is heard from the speaker 630 (Fig. 44) (step 703). The operation is advanced (step 704). When the operation is started, since the sound is started by the notification operation, the laundry operation is easy for the unaccustomed user. In step 70, the process does not start. When the setting content is changed during the standby (step 7〇5), when the pronunciation permission state is reached (step 706), the changed setting content is guided by the sound (step 707). Since the setting contents of the laundry drying operation are guided by the sound, the contents of the laundry drying which cannot be operated from here can be confirmed by listening. Even if the surroundings are dark, the display information of the display unit 617 (shown in Fig. 45) is unsightly, and the setting contents can be surely grasped by the guidance of the sound. Fig. 49 is a flow chart showing the error processing in the laundry drying operation. In the error processing, first, the presence or absence of the error notification state is determined (step 720). In step 720, if the state of the error notification is no, the error cancellation processing is performed (step 72 1) and then returned. -41 - 1360596 In step 720, when the error notification state is YES but the buzzer is not sounding (step 722), the presence or absence of the utterance permission state is determined (step 723). Thus, in step 722, the pronunciation permission status is sometimes the error content and the coping method is notified by the sound (step 724), and returns after the aforementioned step 721. When the buzzer sounds in step 722 and the error cancel button is pressed by the operation of the start/time stop switch 625 (step 725), the buzzer sound is stopped (step 726), and the process proceeds to step 723 (the presence or absence of the sound permitting state). )go ahead. When the error cancel button is not executed in step 725, if the voice button (step 727) is input by the operation of the voice switch 626, the process proceeds to step 726 (buzzer stop is stopped). If the sound button is not input in step 727, if the predetermined time elapses and the buzzer sounds to the end of time (step 72 8), the process proceeds to step 726 (the buzzer stops). Further, in step 72, even if the pronunciation permission status is none, if an error occurs, the error content and the coping method are always notified by the sound in accordance with step 724. That is, when the buzzer is sounded by the occurrence of an error, and the start/temporary stop switch 62 is pressed, the buzzer is stopped, and then the error content and the coping method can be heard by the pronunciation of the step 724. Even if the buzzer sounds for a predetermined period of time without pressing the start/time stop switch 625, the buzzer is stopped and the error content and the coping method are notified by the sound. Further, after the buzzer of the error notification is stopped, it is easy to hear the error content by the sound sound, and the grasp of the error content can be quickly performed. Further, when the sound is generated by the sound generating means to notify the error content, the buzzer sounds to stop -42 - 1360596, but the error display shown in the display portion 617 may be continued or stopped. The content of the sound guidance when the error occurs is as follows. (1 ) . (1) -1 "Description of cause j, description of (1) -2 "state". (2 ). A description of the method of coping with it. (3) . The operation will reopen even if the power is not turned off. * The operation can be reopened by processing. (4) Description of the following process (may/cannot continue) According to the above, the details of the sound guidance are as follows. "[ ( 1 ) -1] Because the laundry has been biased, [(1) -2], the dehydration operation is interrupted. [(3)] After pressing the stop button for a while, [(2)] will cover/inside The cover is opened, please correct the deviation of the laundry. [(4)] The start button will be pressed and start to run." In addition to the sound generated by the buzzer and the notification of the display unit in response to such an error, The sound is informed of the error content and the method of coping, and the correspondence to the error resolution can be quickly performed. In particular, even if the sound sound switch 626 that requires the sound guidance is forgotten, the notification of the sound sound that has occurred in response to the error is added to the sound of the buzzer and the notification of the display unit, so the use of the washer-dryer Convenience is further improved. Further, in the case where the utterance permission state is NO in step 723, the sound guidance is not carried out at all. This is because the sound guidance is set to be invalid to prevent the sound guidance from being performed. If the tone guidance is disabled, in the ringing and error notification of the -43-1360596 buzzer, even if the start/temporary stop switch 625 or the sound switch 626 is turned on (ON), the sound guidance is not It is carried out in Fig. 48, which is a flow of the operation start processing including the reading of the error information. In this flow, after the step 700 of the second half, since it is the same as the flow of the operation start processing described with reference to Fig. 47, the description of the common symbols is omitted. Next, the error information is first read in by the non-volatile memory means 615 (shown in Fig. 44) (step 73 0). Next, it is judged whether or not there is an error (step 731), and if there is no error, the process proceeds to step 700. When there is an error in step 731, it is determined whether or not the pronunciation permission state is present (step 732). In step 732, the pronunciation permission status is sometimes, and the error content and the coping method are notified by the sound sound (step 73 3). When the error cancel button reception (step 73 4) is performed, the error display and the voice sound is stopped (step 73 5), and the process proceeds to step 700. When the error cancel button reception (step 734) is not performed, the broadcast of the error content and the coping method is notified by the sound. After the broadcast is repeated several times, it is also possible to proceed to step 700. When the pronunciation permission status is none in step 73 2, an error is displayed on the display unit (736). And the buzzer is also added as needed. And, proceed to step 73 4 . BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] A schematic longitudinal cross-sectional view showing a washing and drying machine in accordance with an embodiment of the present invention. [Fig. 2] A diagram showing the washing and washing of a large amount of laundry when there is an embodiment of the present invention. [Fig. 3] A diagram showing the rinsing washing when the amount of laundry is small, according to an embodiment of the present invention. [Fig. 4] An external perspective view of a dehumidifying means (longitudinal path for dehumidification) of a drying mechanism according to an embodiment of the present invention. [Fig. 5] A perspective view showing the inside of a dehumidifying means (longitudinal passage for dehumidification) of a drying mechanism, according to an embodiment of the present invention. [Fig. 6] A stereoscopic rsi diagram seen from the opposite side of Fig. 4 of the dehumidifying means (longitudinal path for dehumidification) of the drying mechanism, according to an embodiment of the present invention. [Fig. 7] A perspective view similar to Fig. 6 shows a view in which the window cover is removed from the lint removal window 90, in the same manner as in the sixth embodiment. [Fig. 8] A view showing an outer frame from the rear side in the embodiment of the present invention. [Fig. 9] A cross-sectional view taken along line A-A of Fig. 8 showing an embodiment of the present invention. [Fig. 10] A perspective view of an embodiment of the present invention in which the outer cover is removed from the outer window and the window cover is viewed. [Fig. 11] A perspective view showing a state in which the outer window is closed by the outer cover and a correspondence relationship between the window covers, according to an embodiment of the present invention. [Fig. 12] A perspective view of the outer-45-1360596 of the heater assembly, relating to an embodiment of the present invention. [Fig. 1 3] A person having an embodiment of the present invention removes the inside of the front side assembly case from the inside of the display heater assembly. [Fig. 14] A diagram relating to an embodiment of the present invention shows a diagram in which the fan cover is removed in the same manner as in Fig. 13 [Fig. 15]. Regarding an embodiment of the present invention, a drying filter (dry filtration) A perspective view of the appearance of the device. [Fig. 16] In the embodiment of the present invention, the cross-sectional view of the front side frame portion of the drying filter housing shows the detachment stop means. [Fig. 17] Regarding the embodiment of the present invention, the drying filter is used. The external perspective view of the frame is decomposed and displayed. [Embodiment 18] A cross-sectional view of the embodiment of the present invention in which a detachment stopping means is attached to a front side frame portion of a drying filter casing. [Fig. 19] In the embodiment of the present invention, the front side frame portion of the drying filter housing is shown with a detachment stop means. [Fig. 20] An exploded perspective view of the detachment stopping means of the embodiment of the present invention. [21] Fig. 21 shows a pair of engaging grooves and through holes provided in the front side frame portion of the dry filter housing, according to an embodiment of the present invention. [Fig. 22] A view of the outer tank upper cover seen from the top in the state in which the inner cover is opened, in the embodiment of the present invention. [Fig. 23] A view of the outer tank upper cover as seen from the above, in the state in which the inner cover is further opened, in the embodiment of the present invention. [Fig. 24] An embodiment of the present invention is shown in an enlarged view of the plug around the plug of the reed -46 - 1360596. [Fig. 25] A perspective view showing a relationship between a conductive rubber member, an outer tank upper cover, a hinge rotating shaft, and a reed member in a state in which the inner lid is closed, according to an embodiment of the present invention. [Fig. 26] In relation to the embodiment of the present invention, the relationship between the bolt, the reinforcing frame, the conductive rubber member, the reed bolt, the outer tank upper cover, the hinge rotating shaft, and the reed member is displayed in a state where the inner cover is closed. Sectional view. [Embodiment 27] A perspective view showing a relationship between a conductive rubber member, a reed bolt, an outer tank upper cover, a hinge rotating shaft, and a reed member in a state in which the inner lid is opened. [Fig. 28] In relation to the embodiment of the present invention, the relationship between the bolt, the reinforcing frame 'conductive rubber member, the reed bolt, the outer groove upper cover, the hinge rotating shaft, and the reed member is displayed in a state where the inner cover is opened. Sectional view. [Fig. 29] A cross-sectional view of a bath water sterilization apparatus relating to an embodiment of the present invention. [Fig. 30] A cross-sectional perspective view of a bath water sterilization apparatus relating to an embodiment of the present invention. [31] An exploded perspective view of a bath water removing device in accordance with an embodiment of the present invention. [Fig. 32] An exploded perspective view of a sterilization cartridge according to an embodiment of the present invention. [Fig. 33] Regarding an embodiment of the present invention, the inner cover is opened and the display is provided under the upper cover of the outer tank. A diagram showing the positional relationship between the operating lever and the inner lid of the laundry thread removing device. -47- 1360596 [Fig. 34] With regard to an embodiment of the present invention, the inner cover is opened, showing that the operating lever of the laundry thread removing device is rotated counterclockwise and the engagement of the operating lever is released. [Fig. 35] With regard to an embodiment of the present invention, the inner cover is opened, showing that the operating lever of the laundry thread removing device is rotated counterclockwise and the engagement of the operating lever is released and the laundry thread is captured. The figure pulled out by the shell. [Fig. 36] A perspective view of an outer tank upper cover provided with a laundry chip removing device, as seen from below, with respect to an embodiment of the present invention. [Fig. 37] A plan view of a laundry chip removing device relating to an embodiment of the present invention. [Fig. 38] A longitudinal sectional view of a laundry chip removing device in accordance with an embodiment of the present invention. [Fig. 39] A plan view showing an operating lever of the laundry thread removing device and an operating lever engaging means in the embodiment of the present invention. [Fig. 40] A view showing a state in which the operating lever engagement means of the laundry thread removing device is engaged by a longitudinal section in the embodiment of the present invention [Fig. 41], relating to an embodiment of the present invention The state in which the operating lever engagement means of the laundry thread removing device is disengaged is shown by a longitudinal section [Fig. 42]. For the embodiment of the present invention, the longitudinal section of the foreign matter removing deodorizing valve and the circulation pump Figure. [Fig. 43] A longitudinal sectional view of the deodorizing valve and the circulation pump for removing foreign matter from the embodiment of the present invention shows a state in which the casing of the deodorizing valve is removed from the deodorizing valve casing. [Fig. 44] A control circuit for a washing and drying machine, relating to an embodiment of the present invention. [Fig. 45] A view showing an operation panel in which various switches and display units are arranged, according to an embodiment of the present invention. [Fig. 46] A diagram showing a process from the washing of the washer-dryer to the final dehydration, with respect to an embodiment of the present invention. [Fig. 47] A flowchart relating to the operation start processing is shown in the embodiment of the present invention. [Fig. 48] A flowchart showing an operation start process including error information reading, in the embodiment of the present invention. [Fig. 49] A flowchart showing an error processing is shown in the embodiment of the present invention. [Fig. 50] A flowchart showing the discriminating amount of the first performed laundry operation in the embodiment of the present invention. [Fig. 51] A diagram showing the relationship between the q-axis current and the amount of laundry (the amount of laundry) of the drive motor for washing and drying, according to an embodiment of the present invention. [Fig. 52] A diagram showing the relationship between the fluctuation range of the q-axis current and the amount of laundry (the amount of cloth) in the embodiment of the present invention. [Fig. 53] A diagram showing an example of the present invention, showing only the cloth amount discriminating list (dry cloth amount and set water level) of the dry cloth. [Fig. 54] A diagram showing a cloth discriminating list table (amount of laundry cloth and a set water level) in which a wet cloth is present, according to an embodiment of the present invention. [Fig. 55] A flow of the energy-saving operation in the dry operation -49-1360596 is shown in the embodiment of the present invention. [Picture 56] There is a standard operation and energy-saving operation of this issue. [Figure 57] There is a standard operation related to this issue. Power consumption and operation [Fig. 58] [Fig. 59] There is a relationship between the present time and the number of rotations of the circulating pump [Fig. 60] A graph showing the flowability of the present apparatus. [Main component symbol description] 1 : Frame 3 : Inner groove 5 : Cover 7 : Water supply valve 9 : Drying mechanism 2 〇 : Bottom circulation path 22 : Warm air assembly 24 : Heater 26 : Lower bellows tube 30 : Water supply pipe 32: A diagram showing the energization display of the heat exchanger in the drying operation in the embodiment of the foreign matter removal deodorizing valve. In the embodiment of the present invention, a graph showing the relationship between the drying operation and the transit time is shown. In the embodiment of the present invention, a graph showing the relationship between the drying operation and the transit time is shown. In the embodiment of the present invention, a graph showing the progress of the operation is shown. The embodiment of the present invention shows that the bath water is removed 2: the outer tank 4 = the stirring wing 6: the top cover 8: the inflow connection portion 1: the washing and drying drive motor 21: the dehumidification vertical passage 23: the upper bellows tube 25: the connection cycle Road 29: air supply fan 31: bottom drop portion 33: laundry wire removal device -50 - 1360596
34 : 內蓋 35 : 36 : 投入管 41 : 42 : 洗衣水排水路 43 : 44 : 排水閥 45 : 46 : 洗衣水循環水縱水路 47 : 49 : 空氣管 50 : 70 : 除濕領域 72 : 80 : 冷卻水供給連接口 81 : 82 : 消泡噴嘴 83 : 84 : 擴張風路部 85 : 86 : 乾燥用空氣出口 90 : 91 : 窗用蓋 92 : 93 : 外窗 94 : 95 : 外固定螺栓 100 101 :本體框體 102 103 :前側框部 104 106 :流入口 107 108 :前面操作盤 109 1 10 :脫落止手段 111 112 :按壓銷 113 1 14 :頭部 115 116 :凹 117 118 :卡止爪 119 120 :卡合溝 200 投入裝置 下部連通管 洗衣水循環水路 循環泵 水位感測器 空氣防臭閥 冷卻鰭片 洗淨水供給連接口 消泡水供給管 流下部 棉絨除去窗 固定螺栓 外用蓋 :乾燥過濾器裝置 :乾燥過濾器框體 :過濾器框部 :過濾器 :把手 :止滑構件 :固定構件 :鍔 :擋止部 :貫通孔 :表側組件殻 -51 · 1360596 201 :背側組件殼 204 :外殼部 206 :吸入口 208 :吐出口 210 :鼻部 212 :翼 301 :蓋部 303 :出入口 305 :補強框架 307 :窗 309 :簧片構件 311 :簧片用轂部 3 1 3 :導電橡膠構件 315 :簧片構件 317 :螺栓 401 :除菌卡匣 403 :下流側異物除去過濾器 405 :過濾器按壓 407 :圓筒體 4 0 9 :分隔部 500 :洗衣線屑捕集殼 502 :螺栓轂部 504 :周壁 506 :籠蓋 202 :送風風扇 205 :加熱器室 207 :排出口 209 :後側端部 211 :隆起部 300 :外槽上蓋 302 :蓋部 304 :鉸鏈 306 :套蓋 308 :螺栓 310 :轂部 312 :簧片用螺栓 314 :轉動軸 3 1 6 :連接終端 400 :洗澡水除菌裝置 402 :上流側異物除去過濾器 404 :吸入帽 406 :本體錘 408 :卡昆蓋 410 :支柱 5 0 1 '·保持殼 503 :底部 505 :洗衣線屑捕集籠 507 :蓋按壓肋 -52- 136059634 : Inner cover 35 : 36 : Input pipe 41 : 42 : Washing water drain 43 : 44 : Drain valve 45 : 46 : Wash water circulating water longitudinal water 47 : 49 : Air pipe 50 : 70 : Dehumidification area 72 : 80 : Cooling Water supply connection port 81 : 82 : Defoaming nozzle 83 : 84 : Expansion air passage portion 85 : 86 : Drying air outlet 90 : 91 : Window cover 92 : 93 : Outer window 94 : 95 : External fixing bolt 100 101 : Main body frame 102 103 : front side frame portion 104 106 : inflow port 107 108 : front operation panel 109 1 10 : detachment stop means 111 112 : press pin 113 1 14 : head 115 116 : recess 117 118 : locking claw 119 120 :Kalonggou 200 Input device lower communication tube Laundry water circulation water circulation pump Water level sensor Air deodorant valve Cooling fin Washing water Supply connection port Defoaming water Supply pipe Lower cotton lint removal window Fixing bolt External cover: Dry filter Device: Dry filter frame: Filter frame: Filter: Handle: Anti-slip member: Fixing member: 锷: Stop: Through hole: front side component case -51 · 1360596 201 : Back Assembly case 204: outer casing portion 206: suction port 208: discharge port 210: nose portion 212: wing 301: cover portion 303: entrance 305: reinforcing frame 307: window 309: reed member 311: reed hub 3 1 3 : Conductive rubber member 315 : Reed member 317 : Bolt 401 : sterilizing cassette 403 : Downstream side foreign matter removing filter 405 : Filter pressing 407 : Cylindrical body 4 0 9 : Separating portion 500 : Laundry thread collecting case 502: bolt hub portion 504: peripheral wall 506: cage cover 202: blower fan 205: heater chamber 207: discharge port 209: rear side end portion 211: ridge portion 300: outer tank upper cover 302: cover portion 304: hinge 306: sleeve Cover 308: Bolt 310: Hub portion 312: Reed bolt 314: Rotary shaft 3 1 6 : Connection terminal 400: Bath water sterilization device 402: Upflow side foreign matter removal filter 404: Suction cap 406: Body hammer 408: Card Kungai 410: pillar 5 0 1 '·retaining shell 503: bottom 505: laundry thread catching cage 507: cover pressing rib -52- 1360596
508 : 注入口 509 510 : 流入口 5 11 512 : 操作桿 513 514 : 突出肋 5 15 520 : 防臭閥外殼 521 522 : 流入口 523 524 : 異物除去防臭閥部 525 526 : 小孔 527 528 : 吸入口 529 53 0 : 電動機 531 532 : 沖洗 535 540 : 沖洗流入室 541 542 : 導入水路 600 601 : 負荷驅動控制電路 602 603 : 自動斷開(OFF)繼電器 604 605 : 柔軟後處理劑閥 606 607 : 冷卻水閥 608 609 : 蓋鎖定機構 610 611: 操作盤 612 613 : 溫度感測器 614 615 : 不揮發記憶手段 616 617 : :顯示部 618 620 : :程序設定開關 621 622 : :清洗開關 623 沖洗口 密封套 卡合部 卡止部 防臭閥內殼 排出口 摘部 泵外殼 泵流槽 沖洗 吐出口 流入口 主控制電路 電源電路 商用交流電源 洗劑溶化閥 離合器 電動送風機 操作開關 蓋開閉感測器 音聲發生1C 蜂鳴器 清洗開關 脫水開關 -53- 1360596 624 : 627 : 629 : 640 : 642 : 65 1 : 653 : 乾燥開關 626 : 音聲開關 開關 628 : 開關 節能用開關 630 : 喇叭 音聲ROM 641 : D/A變換器 AMP 650 : 清洗過程 清洗1過程 652 : 清洗2過程 最終脫水過程 -54-508 : Injection port 509 510 : Inlet port 5 11 512 : Operating lever 513 514 : Projecting rib 5 15 520 : Deodorizing valve housing 521 522 : Inflow port 523 524 : Foreign matter removing deodorizing valve portion 525 526 : Small hole 527 528 : Suction port 529 53 0 : Motor 531 532 : Flush 535 540 : Flushing inflow chamber 541 542 : Water inlet 600 601 : Load drive control circuit 602 603 : Automatic OFF (OFF) relay 604 605 : Soft post-treatment valve 606 607 : Cooling water Valve 608 609 : Cover lock mechanism 610 611 : Operation panel 612 613 : Temperature sensor 614 615 : Non-volatile memory means 616 617 : : Display portion 618 620 : : Program setting switch 621 622 : : Wash switch 623 Flush seal sleeve Knitting part locking part deodorizing valve inner casing discharge port extracting part pump casing pumping trough flushing spouting outflow inlet main control circuit power supply circuit commercial AC power supply dissolving valve clutch electric blower operation switch cover opening and closing sensor sound sound generation 1C Buzzer cleaning switch dehydration switch -53- 1360596 624 : 627 : 629 : 640 : 642 : 65 1 : 653 : Drying switch 626 : Sound switch 628 : Switch energy saving switch 630 : Speaker sound ROM 641 : D/A converter AMP 650 : Cleaning process cleaning 1 Process 652 : Cleaning 2 process Final dehydration process - 54-