201144515 六、發明說明: 【發明所屬技彳标領域】 發明領域 本發明係有關於一種在底部具有衣物攪拌用搜拌翼之 洗衣脫水槽,且前述洗衣脫水槽係可自由旋轉地配設於水 槽内,並且供給帶電微粒子水至洗衣脫水槽及水槽内,進 行衣物等之除菌、消臭及抑制黴菌產生之洗衣機。 【先前技術3 發明背景 以往’例如於特開2008-237442號公報(專利文獻丨)中揭 示有一種洗衣機,該種洗衣機為殺死附著於衣物上之雜菌 或循環空氣中之雜菌,於水槽與可旋轉地配設於水槽内之· 滾琦’ It由靜電務化生成帶電微粒子水排放至洗衣槽内之 洗衣乾燥機。 第6圖係記載於專利文獻1中之洗衣乾燥機之概略截面 圖。如第6圖所示’洗衣機71係於構成洗衣機71之外廓的洗 衣機本體72内内裝有洗衣槽73,洗衣槽73係藉由内部配置 了旋轉滾筒74之水槽75所構成。旋轉滾筒74具有多數之小 孔,藉由馬達76旋動。水槽75連接有供水路77、排水路78。 洗衣槽73設有開口 79,且於開口 79設有可自由開閉之門80。 洗衣機本體72内,並且洗衣槽73之外部(也就是水槽75 之外部)設有靜電霧化裝置81。靜電霧化裝置81係裝於箱體 82内,且箱體82設有風扇83。箱體82連通銜接構成供氣路 84之供氣管之一端’供氣管之另一端開口於洗衣機本體 201144515 72 ’且連通外部。箱體82連通銜接構成排放途徑85之排放 官之—端,排放管之另一端被配管於洗衣槽73之開口 79之 端部’面臨旋轉滾筒74之内部。 靜電霧化裝置81所生成之奈米尺寸的帶電微粒子水, 藉由利用風扇83之運轉通過供氣路84所供給之外部空氣, 通過排放路線85,朝洗衣槽73内排放,進行旋轉滾筒74内 部之衣物的脫臭、除菌。 此等構成之洗衣機71,因要處理洗濯物之洗濯的一連 串運轉’係依序進行洗濯物的洗濯運轉、清水冲洗運轉、 脫水運轉及乾燥運轉,再加上運轉靜電霧化裝置81進行除 菌、脫臭之運轉。 又’該引用文獻1未顯示於圖上,洗衣槽73設有排放溫 風或冷風之排放口洗衣槽73,溫風或冷風朝洗衣槽73内排 放’可乾燥旋轉滚筒74内之衣物。 但疋’習知之構成的洗衣機,為能連續而依序地於乾 燥運轉之後運轉靜電霧化裝置81 ,進行除菌、脫臭之運轉, 因此於除菌、脫臭之運轉時,藉由乾燥運轉使水槽73内變 得乾燥’且溫度低的狀態。 為使靜電霧化安定地產生,帶電微粒子水有效地附著 於衣物上,相對濕度20〜85 〇/〇是所期待的。但是,引用文獻 1之構成,水槽73内乾燥相對濕度大多是在20 %以下之狀 態,帶電微粒子水不易於有效地附著於衣物上。因此,習 知之構成在除菌、脫臭之性能上有其問題。 又,即使單獨地進行除菌、脫臭運轉,亦有在那之前 201144515 水槽73内變得乾燥,且溫 電微粒子水無法有效地附 上的問題。 進行乾燥運轉之情況,此時也是 度低的狀態。因此,同樣亦有帶 著於衣物上之除菌、脫臭之性能 I:發明内容3 發明概要 為解決習知之問題,可安 子水有效地附著、浸透衣 本發明係提供一種洗衣機, 定地產生靜電霧化,使帶電微极 物,進行除菌、脫臭。 本發明之洗衣機包含有: 外槽,係彈性地爷掛切於筐體内; 内槽’係用以收容衣物, ’ 槽内; 可自由旋轉地支撐於外 a k於内槽之内底部 且设於内 驅動部,係驅動旋轉内槽或授掉翼; 上部框體,係裝設於筐體上部;, 送風部,係供給空氣至内槽内;’ 供水閥,係設於上部框體;以及 熱交換導管,係除濕朝濕空氣; 靜電霧化產生單元,係呈古#丄’ 微粒子水之靜«化產Μ置糟由靜電霧化生成帶電 控制部,係控制驅動部 濯行程、清切洗行程、及脫1卩之運轉,且控制洗 粒子水至内槽内之除詰 程,以及排放帶電微 菌、脫臭行程中使供水關Γ臭行程。控制部具有在除 "蝎動作,以注水至熱交換導管内 201144515 之構成。 藉由此構成,201144515 VI. Description of the Invention: [Technical Field of the Invention] Field of the Invention The present invention relates to a laundry dewatering tank having a mixing wing for clothes mixing at the bottom, and the laundry dewatering tank is rotatably disposed in the sink In addition, the charged microparticle water is supplied to the washing and dewatering tank and the water tank, and the washing machine for removing bacteria, deodorizing, and suppressing mold is performed. [Prior Art 3] In the related art, a washing machine is disclosed in Japanese Laid-Open Patent Publication No. 2008-237442 (Patent Document No.), which is a microorganism that kills bacteria or circulating air adhering to clothes. The water tank is rotatably disposed in the water tank. Rolling 'It is a laundry dryer that discharges charged fine particle water into the washing tank by electrostatic treatment. Fig. 6 is a schematic cross-sectional view of the laundry dryer described in Patent Document 1. As shown in Fig. 6, the washing machine 71 is provided with a washing tank 73 in a washing machine body 72 constituting the outer periphery of the washing machine 71, and the washing tank 73 is constituted by a water tank 75 in which a rotating drum 74 is disposed. The rotary drum 74 has a plurality of small holes that are rotated by a motor 76. A water supply path 77 and a drainage path 78 are connected to the water tank 75. The washing tank 73 is provided with an opening 79, and the opening 79 is provided with a door 80 which can be opened and closed freely. Inside the washing machine body 72, and outside the washing tank 73 (that is, outside the water tank 75), an electrostatic atomizing device 81 is provided. The electrostatic atomizing device 81 is housed in the casing 82, and the casing 82 is provided with a fan 83. The casing 82 is connected to the one end of the air supply pipe constituting the air supply path 84. The other end of the air supply pipe is open to the washing machine body 201144515 72 ' and is connected to the outside. The casing 82 communicates to form the discharge end of the discharge passage 85, and the other end of the discharge pipe is piped to the inside of the opening 79 of the washing tank 73 facing the inside of the rotary drum 74. The charged fine particle water of the nanometer size generated by the electrostatic atomizing device 81 is discharged into the washing tank 73 through the discharge path 85 by the outside air supplied through the air supply path 84 by the operation of the fan 83, and the rotating drum 74 is rotated. Deodorization and sterilization of the internal clothing. The washing machine 71 having such a configuration is subjected to a series of operations of washing the washings, and the washing operation, the water washing operation, the dehydrating operation, and the drying operation of the washings are sequentially performed, and the electrostatic atomizing device 81 is operated to perform sterilization. Deodorization operation. Further, the cited document 1 is not shown in the drawing, and the washing tank 73 is provided with a discharge tank 73 for discharging warm air or cold air, and the warm air or the cold air discharges the laundry in the rotary drum 74 into the washing tank 73. However, in the washing machine of the conventional configuration, the electrostatic atomizing device 81 is operated continuously and sequentially after the drying operation to perform the sterilization and deodorization operation, so that it is dried during the sterilization and deodorization operation. The operation causes the inside of the water tank 73 to be dry and the temperature is low. In order to make the electrostatic atomization stable, the charged fine particle water is effectively adhered to the clothes, and a relative humidity of 20 to 85 〇/〇 is expected. However, in the configuration of Document 1, the dry relative humidity in the water tank 73 is often 20% or less, and the charged fine particle water is not easily attached to the laundry. Therefore, the conventional composition has problems in the performance of sterilization and deodorization. Further, even if the sterilization and deodorization operation are performed separately, there is a problem that the water inside the water tank 73 becomes dry and the thermoelectric fine water cannot be effectively attached before 201144515. In the case of the drying operation, the state is also low. Therefore, there is also a performance of sterilization and deodorization on the clothes. I: SUMMARY OF THE INVENTION In order to solve the conventional problems, the water can be effectively adhered and impregnated. The invention provides a washing machine, which is produced in a fixed manner. Electrostatic atomization, the charged micro-electrode, sterilization, deodorization. The washing machine of the present invention comprises: an outer groove, which is elastically cut into the casing; the inner groove is used for accommodating clothes, 'in the groove; and is rotatably supported on the outer bottom of the inner groove and provided The inner driving portion drives the rotating inner groove or the wing; the upper frame is mounted on the upper portion of the casing; the air blowing portion supplies air to the inner groove; and the water supply valve is disposed on the upper frame; And the heat exchange conduit is dehumidified to the humid air; the electrostatic atomization generating unit is the ancient #丄' micro-particle water static «chemical production, the waste is generated by electrostatic atomization, the control unit drives the stroke, clear The washing process and the operation of taking off, and controlling the washing and washing of the particle water into the inner tank, and discharging the charged micro bacteria and the deodorizing stroke to make the water supply close to the odor stroke. The control unit has a configuration in which the "蝎 action is performed to inject water into the heat exchange conduit 201144515. By this,
、熱交換導管,然 地產生靜電霧化, 使帶電微粒子 進行除菌、脫臭。 圖式簡單說明 、適度之濕氣,因此可安定 水有效地附著、浸透衣物, 楚1国政士找The heat exchange tube is electrostatically atomized to cause the charged particles to be sterilized and deodorized. Simple description of the schema, moderate moisture, so it can be stabilized. Water effectively adheres to and soaks the clothes.
第4圖係同洗衣機之靜電霧化產生單元部之主要部份 截面圖。 第5圖係顯示同洗衣機之除菌、脫臭行程之順序圖。 第6圖係習知<洗衣乾燥機之概略截面圖。 較佳實施例之詳細說明 以下,有關本發明之實施形態,一面參照圖面一面說 明。又’本發明不受限於該實施形態。 (實施之形態1) 第1圖係本發明之實施形態1中之洗衣機的縱截面圖、 第2圖係同洗衣機之方塊電路圖、第3圖係同洗衣機之主要 部份分解斜視圖。 第1圖係本發明之一實施形態中之洗衣機的縱截面 圖。第1圖中,筐體1設有外槽3,前迷外槽3係於内部藉由 複數之懸掛體2彈性地吊掛,且藉由懸掛體2吸收脫水時之 201144515 振動。於外槽3之内部將用以收納衣物及乾燥對象物之内槽 4配设成可以呈中空且為兩層構造之洗衣.脫水軸5為中心 作旋轉。内槽4係於略呈錯直方向(含船直方向)#有旋轉中 心軸,可自由旋轉地支撐於外槽3内。内槽4之内底部配設 有可自由旋轉、用以攪拌衣物及乾燥對象物之攪拌翼6。 又’内槽4之内部周壁設有多數之通氣孔4a,且上方設 有流體均衡器7。馬達(驅動部)8,係裝設於外槽3之外底部, 於洗衣或脫水時將旋轉力之傳達係經由切換成洗衣脫水 軸5之離合器9與洗衣.脫水軸5,連結内槽4或攪拌翼6。攪 拌翼6形成為外周部具有傾斜面10之略呈鍋形(含鍋形)之形 狀,並且形成攪拌用突出部11。藉由此構成,於洗濯行程、 清水冲洗行程時攪拌衣物,並且於乾燥行程時,藉由攪拌 翼6之旋轉的離心力乾燥對象物沿著傾斜面易往上翻飛。也 就疋構成藉由攪拌使衣物左右(旋轉方向)交替,並且上下交 替變動之攪拌翼6。 熱交換導管12用以除濕循環之潮濕空氣(循環風)。熱交 換導官12的一端係經由可自由伸縮之連接導管丨],連接裝 設於外槽3之下部的排水路線口 14,另一端在空氣循瓖路線 17之入口側,連接位於風扇15之下部的循環風接收家45之 一端。 風扇15之上部設有加熱器16。空氣循環路線17厶出口 側連接具有空氣排放口 20之上部蛇腹狀軟管18。從循環風 接收室45通過上部蛇腹狀軟管18,構成連接至内槽4么循環 空氣循環路線17。該風扇15利用空氣循環路線17、突氣排 201144515 放口 20構成送風部65。 空氣循環路線17之入口側設有溫度檢測部35,而出口 側則設有溫度檢測部36,檢測乾燥行程時之循環風溫度。 循環風接收室4 5内設有過濾器4 6❶循環風係通過該過 濾器46循環’利用過濾器46捕集自衣物產生之廢線等。送 風部65之入口侧之循環風接收室45形成有注水口 66。注水 口 66係利用軟管67與供水閥32相連接,且前述供水閥32係 由設置於後述上部框體48之支持構件50所安裝。 供水閥32係2個以上之水路,且由複數個可開閉之閥所 形成。一個水路係以小流量利用軟管67連接高於循環風接 收室45之風扇15之上流側,另外一個水路係以大流量利用 供水軟管68透過供水構件52(將後述於第3圖)等連接内槽 4,以提供作為洗濯水之水至内槽4。 外槽3設有氣密地覆蓋外槽3之上面的外槽蓋19。在該 外槽蓋19上’連接於可自由伸縮之上部蛇腹狀軟管18之空 氣排放口20’係開口於内槽4之旋轉軸的外側位置且是流體 均衡器7之内側的位置。又,該外槽蓋19設有可自由開閉之 中蓋21,用以拿出放入衣物。 筐體1之上部,於其略中央部(含中央部)安裝有具有衣 物投入口 47之上部框體48。上部框體48設有覆蓋衣物投入 口 47之可自由開閉之外蓋49。 外槽3之底部,設有排出外槽3内之水的排水閥22,且 經由排水導管23連接熱交換導管12與連接導管13。將來自 連接導管13與熱交換導管12之排水引導至排水導管23、排 201144515 水閥22 ’且從排水軟管24排水至機外。 冷卻用送風機25裝設於筐體1之側面,用於冷卻筐體1 之内部的外槽3、熱交換導管12而進行送風。 將於後述之具有控制部33之控制裝置3〇係與負荷驅動 —體集中地形成。控制裝置3〇係略垂直(亦即相對於筐 體1之底面略呈垂直之略鉛直,包含鉛直)地配設於筐體1之 背面部(裏蓋M2,且藉由蓋43覆蓋而受到保護。控制裝置30 之下側設有冷卻用送風機25。 又’上部框體48之前方部(第1圖之左側)上面,設有操 作者輸入洗濯行程、清水冲洗行程或脫水行程之輸入設定 437 ’與顯示輸入内容或動作狀態等、將於後述之顯示部 38所構成之顯示部操作顯示部39。 第2圖係本實施形態之洗衣機的方塊電路圖。第2圖中 控制裝置30,係經由負荷驅動部3丨控制構成馬達(驅動 部)8、離合器9、送風部65之風扇15、加熱器16、排水閥22、 冷卻用送風機(冷卻部)25、供水閥32、吸水泵51等之動作, 並且具有控制洗濯、清水冲洗、脫水、乾燥各行程,及除 菌、脫臭行程之控制部33。 控制部33係由微電腦等所構成,從商用電源4〇,藉由 開電源開關41供應電力而開始運轉。控制部33係輸入水位 寺欢測434、溫度檢測部35、36之輸出,且根據藉由使用者 於輸入設定部37的輸入所設定之内容,於顯示部38顯示設 疋内谷。又’控制部3 3係經由以雙向可控石夕、繼電等所 構成負荷驅動部31控制馬達8、離合器9、送風部65之風扇 201144515 15、加熱器16、排水閥22、冷卻用送風機25、供水閥Κ、 吸水系51等 <動作,並且㈣洗濯、清水冲洗、脫水、乾 燥各行程。又,利用輸入設定部37與顯示部38構成操作顯 示部39» 、 ‘” /又,控制部33係經由控制電路之靜電霧化驅動部兄控 制靜電霧化產生裝置55,藉此控制_、脫臭行程。控制 P系於乾燥行程,藉由溫度檢測部3 6檢測到之溫度若已 達第1之規定溫度(例如、11〇。〇時,會關閉加熱器16。控制 部33從關閉時之溫度檢測部35的溫度降到第2之規定溫度 (例如、2deg)時,會運轉加熱器15,調節循環風之溫度。 第3圖係本實施形態之洗衣機的主要部份分解斜視 圖。第3圖中,設置於上部框體48之後部内方之支持構件 50,安裝有供水閥32、吸水泵51、空氣循環路線17及注水 構件52。而前述供水閥32係供給自來水至水槽内、前述吸 水系51係吸引洗澡水等供水至水槽内、前述空氣循環路線 17係由風扇15所形成、及前述注水構件52係從供水閥”供 水至水槽時,使自來水通過,且投入洗劑之構件。 又,在支持構件50處,與送風部65之構成構件的空氣 循環路線17之循環風接收室45相鄰接,且内設有靜電霧化 產生裝置55(將後述於第4圖)的靜電霧化產生單元53,其係 從支持構件5〇之下方安裝,並予固定。 支持構件50係從上部框體48之下方安裝,由上部框體 48之後面螺合螺絲53a、53b,由上部框體48之上面螺合螺 絲53c、53d,固定於上部框體48。又,藉由螺絲地、^ 201144515 將支持構件50之後部固定於筐體1之後面。 從具有上述構成之本實施形態之洗衣機的洗濯到乾燥 行程的基本運轉來加以說明。從洗濯到清水冲洗行程,打 開外蓋49,打開中蓋21,投入衣物與洗劑至内槽4,一開始 運轉即供水至規定的水位為止後,驅動馬達。此時,藉由 傳達機構部之離合器9經由洗濯軸傳達至攪拌翼6,因著搜 拌翼6的旋轉,衣物會被攪拌翼6之攪拌用突出部11綷住, 且朝中心部被吸進來。内槽4之中心下層部之衣物,藉由被 吸進來之衣物,朝内槽4之上層部被往上推。如此攪拌内槽 4内之衣物,藉由衣物之間、或因著接觸内槽4之内壁或搜 拌翼6所作用之機械力與水流力來進行洗濯。 脫水行程中,洗濯終了後,開啟排水閥22從排水軟管 24排出内槽4内之水。之後,將傳達機構部之離合器9切換 至脫水側,馬達8之動力經由脫水軸傳達至内槽4使之旋 轉’藉由賦與衣物離心力,利用水份自衣物分離,進行脫 水0 乾燥行程中,將離合器9切換至洗濯側,驅動馬達8並 傳達至攪拌翼6,利用攪拌翼6急速地正轉、反轉,拉剝丁 脫水後貼付於内槽4之内壁的衣物。接著,正轉、反轉檀拌 翼6,以攪拌用突出部11綷住衣物,一邊進行攪拌,一邊藉 著由加熱器16及風扇15所構成之送風部65送溫風至空氣排 放口 20。從空氣排放口 20吹進内槽4之溫風,係自衣物蒸發 水份之後,從内槽4經由通氣孔4a往外槽3之内側出去後, 從排水路線口 14通過連接導管13,至熱交換導管12。 201144515 奪去衣物之水份而含著濕氣之溫風’在通過外槽3之内 壁或熱交換導管12内時,藉由設置於筐體1之側面的冷卻送 風機25使外部空氣流入,因此使外槽3或熱交換導管12之外 壁冷卻。藉此,熱交換導管丨2之内部’發生水份之結露, 潮濕的溫風被除濕’進入循環風接收室45,通過過濾器46 之後再返回風扇15。藉由該循環路循環溫風,可乾燥内槽4 内之衣物。又,此時運轉供水閥32供水至軟管67側,由風 扇15從上流側之注水口 66往熱交換導管12注入小流量的 水,採用除濕之水冷除濕方式亦可。 除菌、脫臭行程中’藉由風扇15之驅動時運轉靜電霧 化裝置55(將後述於第4圖),將帶電微粒子水由空氣循環路 線17之出口側的空氣排放口20送至内槽4内部,從上方排放 衣物。 第4圖係本實施形態中之洗衣機的靜電霧化產生單元 部53之主要部伤截面圖。第4圖中,在從支持構件5〇之下方 安裝、固定之靜電霧化產生單元53處,設有固定於靜電霧 化安裝板63内方、安裝板A57之靜電霧化產生裝置55,以及 固定於安裝板⑽之控制電路的靜電霧化驅動部56。 又’雖未顯示於圖上,但靜電霧化產生裝置55與控制 電路之靜電霧化驅動部56係以料或連接器作成電氣性的 連接。 安裝板A57,在靜電霧化產生裝置55之下部形成有空氣 流入口 59。靜電霧化安裂板幻之側壁,在比靜電霧化產生 裝置55較低的位置形成有帶電微粒子水排放口 6G。帶電微 12 201144515 粒子水排放口 60係連通送風部65之構成構件的循環風接收 室45。 又,在靜電霧化安裝板63之帶電微粒子水排放口 6〇與 靜電霧化產生裝置55之間,遮蔽壁61與安裝板A57之底面具 有間隙,並且下垂於下方之肋狀的先端61A,被形成為下垂 至比刖述1電微粒子水排放口 6〇之下端6〇A還要下方。藉 此,對於來自熱父換導管12之水的浸入等,可防水地遮蔽 帶電微粒子水排放口 60與靜電霧化產生裝置55。 第5圖係排放帶電微粒子水除菌、脫臭行程之順序圖的 一例。以下依照第5圖說明除菌、脫臭行程之動作。 所謂除菌、脫臭行程,如第5圖所示,係由約略2分鐘 之送風行程與約略33分鐘本行程所構成。又,除菌、脫臭 行程雖是和乾燥行程大致相同的控制行程,但並未運轉加 熱器16,攪拌翼6與内槽4以規定之旋轉數持續旋轉,藉由 靜電霧化驅動部56以規定之時限運轉靜電霧化產生裝置 55。 首先,送風行程中,不運轉靜電霧化產生裝置55,驅 動風扇15,形成從送風部65往内槽4、熱交換導管12,然後 再返回送風部65之之循環風。 循環風形成的同時小流量之供水閥32運轉,開始往軟 管67側供水,小流量的水由風扇15從上流側之注水口的往 熱交換導管12注人。此時’排水閥22是開放之狀態。 上述循環風所含括之注水,被風扇15所吸引,並且粉 碎成細微之水滴,循環風變成含有濕氣,包含内槽4之循環 13 201144515 風的路線從乾燥狀態變 .. 雯成濕潤狀態。 特別是,運轉除菌 ^ 的話,循環風之臭灯程刚,右先魏燥行程 低渴之二 於乾燥狀態,且内槽4内也處於高溫 低/‘‘,、之狀態,但藉由上 且路線之溫度也會降低送風行程會變成濕潤之狀態, 、"接著’供水閥32停止,開始除菌、脫臭行程之本行程。 以從控制部33來之指示驅動靜電霧化驅動部%,靜電霧化 產生裝置55錢轉’且含於從空氣流人口 %流人之空氣中 的水伤’料露水凝結水供給至靜電霧化產线置Μ之放 電電極(未騎於圖上)。於被供給了露水凝結水之放電電極 加上间電壓’就大量地產生帶了負電之微米尺寸的帶電微 粒子水。 除菌、脫臭行程,加熱器16雖未通電,但和乾燥行程 大致相同的控制行程。因此形成大的循環風之流動該流 動係通過内槽4内之衣物的風,通過熱交換導管12,進入循 環風接收室45 ’通過過濾器46之後,朝向風扇15,經由上 部蛇腹狀軟管18,由空氣排放口 20返回内槽4。 藉由該大的循環風之流動,經由帶電微粒子水排放口 60和循環風接收室45連通之由靜電霧化安裝板63與安裝板 Α57所形成的靜電霧化室64,相對於循環風流動之循環路線 容積變小之故,變成負壓狀態。藉此,循環風流動時所產 生之帶電微粒子水,係從帶電微粒子水排放口 6〇被吸進循 環風接收室45内。被吸進之帶電微粒子水係乘著循環風之 流動排放至内槽4内。 201144515 含有▼電微粒子水之循環風流動的時候,驅動馬達8, 藉由攪拌翼6與内槽4之旋轉進行衣物之攪拌,帶電微粒子 水有效地附著、滲透到衣物的所有角落’進行除菌、脫臭。 如上,在本實施形態中,控制部33在除菌、脫臭行程 中’運轉小流量之供水閥32,從形成於送風部65之入口側 之注水口注水至熱交換導管12内。藉由此事,預先於循環 風中加上適度的濕氣,使内槽4内方處於相對濕度 20〜85%。因此’除菌、脫臭行程的本行程中,從靜電霧化 產生裝置55而來之帶電微粒子水可有效地附著於衣物上。 所以,可提高除菌、脫臭之效果。 又’在本實施形態中’除菌、脫臭行程中之送風行程 的供水,從循環風接收室45之風扇15連接上流側。因此, 並非直接供水至内槽4内之衣物而提高内槽4内之溫度,藉 由風扇15粉碎成細微之水滴形成噴霧狀態,供給至内槽4 内。所以,也可避免水滴附著至藉由除菌、脫臭行程之前 運轉之乾燥行程的終了而處於乾燥狀態之衣物的不好情 況。 如以上之說明,本發明包含有: 外槽,係彈性地吊掛支掠於筐體内; 内槽,係用以收谷衣物,且可自由旋轉地支樓於外 槽内; 授拌翼,係用以槐拌衣物,且設於内槽之内底部; 驅動部,係驅動旋轉内槽或攪拌翼; 上部框體,係裝設於筐體上部; 15 201144515 送風部,係供給空氣至内槽内; 供水閥,係設於上部框體;、 熱交換導管,係除濕潮^氣; 靜電霧化產生單元,係且右〜/ ^ 、有稭由靜電霧化生成帶電 微粒子水之靜電霧化產生裝置; 控制部’雜制 洗濯行程、清切洗㈣、及广权顿’且控制 粒子水至㈣内之_、脫臭行/程,叹排放帶電微 菌、脫臭行程中運轉供水閥,注水至;^控制部具有在除 藉由此等構成,可於從钱^"^料^之構成。 . 内槽、熱交換導·管, …、、後返回到送風部之循環風中加 、 八通度的濕氣,因此可安 疋地產生靜電霧化,使帶電微粒 物,進行除菌、脫臭。 岣效地附著、浸透衣 此等=本Γ係、内槽在錯直方向具有旋轉中心軸。藉由 ^構成,更可使帶錢奸水有效_著、浸透衣物, 進行除菌、脫臭。 册又,本發明係内槽具有通氣孔。藉由此等構成,更可 使帶電微粒子水有效地附著、浸透衣物,進行除菌、脫臭。 【囷式簡單説明】 第1圖係本發明之一實施形態中之洗衣機的縱截面圖。 第2圖係同洗衣機之方塊電路圖。 第3圖係同洗衣機之主要部份分解斜視圖。 第4圖係同洗衣機之靜電霧化產生單元部之主要部份 戴面圖。 201144515 第5圖係顯示同洗衣機之除菌、脫臭行程之順序圖。 第6圖係習知之洗衣乾燥機之概略截面圖。 【主要元件符號說明】 35、36...溫度檢測部. 37.. .輸入設定部 38.. .顯示部 39.. .顯示部操作顯示部 40.. .商用電源 41.. .電源開關 42.. .背面部(裏蓋) 43…蓋 45.. .循環風接收室 46.. .過遽器 47.. .衣物投入口 48.. .上部框體 49.. .外蓋 50.. .支持構件 51.. .吸水泵 52.. .注水構件 53.. .靜電霧化產生單元 53a、53b、53c、53d...螺絲 54 a、54b...螺絲 55.. .靜電霧化產生裝置 56.. .靜電霧化驅動部 57.. .安裝板A 58.. .安裝板B 59.. .空氣流入口 60.. .帶電微粒子水排放口 60A...下端 61.. .遮蔽壁 61A...先端 63.. .靜電霧化安裝板 64.. .靜電霧化室 65.. .送風部 1…筐體 2.. .懸掛體 3.. .外槽 4.. .内槽 4a...通氣孔 5.. .洗衣.脫水軸 6.. .攪拌翼 7.. .流體均衡器 8.. .馬達(驅動部) 9.. .離合器 10…傾斜面 11.. .攪拌用突出部 12.. .熱交換導管 13.. .連接導管 14.. .排水路線口 15.. .風扇 16.. .加熱器 17.. .空氣循環路線 18.. .上部蛇腹狀軟管 19.. .外槽蓋 20.. .空氣排放口 21.. .中蓋 22.. .排水閥 23.. .排水導管 24.. .排水軟管 25.. .冷卻用送風機 30.. .控制裝置 31.. .負荷驅動部 32.. .供水閥 33.. .控制部 34.. .水位檢測部 17 201144515 66...注水口 78...排水路 67...軟管 79...開口 68...供水軟管 80...門 71...洗衣機 81...靜電霧化裝置 72...洗衣機本體 82...箱體 73...洗衣槽 83...風扇 74...旋轉滾筒 84...供氣路 75...水槽 85...排放路線 76...馬達 77...供水路 18Fig. 4 is a cross-sectional view showing the main part of the electrostatic atomization generating unit of the washing machine. Fig. 5 is a sequence diagram showing the sterilization and deodorization strokes of the washing machine. Figure 6 is a schematic cross-sectional view of a conventional < laundry dryer. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. Further, the present invention is not limited to the embodiment. (Embodiment 1) FIG. 1 is a longitudinal sectional view of a washing machine in a first embodiment of the present invention, a block diagram of a washing machine in the second drawing, and a perspective view of a main part of the washing machine in the third drawing. Fig. 1 is a longitudinal sectional view showing a washing machine in an embodiment of the present invention. In Fig. 1, the casing 1 is provided with an outer groove 3, and the front outer groove 3 is elastically suspended by a plurality of suspension bodies 2, and the suspension 2 absorbs the vibration of 201144515 during dehydration. The inner tub 4 for accommodating the laundry and the object to be dried is disposed inside the outer tub 3 so as to be rotatable around the dehydrating shaft 5 which is hollow and has a two-layer structure. The inner groove 4 is rotatably oriented in the direction of the straight line (including the ship straight direction), and is rotatably supported in the outer groove 3. The inner bottom of the inner tank 4 is provided with a stirring wing 6 which is freely rotatable for agitating the laundry and drying the object. Further, the inner peripheral wall of the inner groove 4 is provided with a plurality of vent holes 4a, and a fluid equalizer 7 is disposed above. The motor (drive unit) 8 is mounted on the outer bottom of the outer tank 3, and conveys the rotational force during the washing or dehydration via the clutch 9 that is switched to the washing and dehydrating shaft 5 and the washing and dewatering shaft 5, and connects the inner tank 4 Or stir the wings 6. The stirring blade 6 is formed in a slightly pot shape (including a pot shape) having an inclined surface 10 on the outer peripheral portion, and a stirring projection 11 is formed. According to this configuration, the laundry is stirred during the washing stroke and the fresh water rinsing stroke, and during the drying stroke, the object is dried by the centrifugal force of the rotation of the stirring blade 6, and the object is easily slid upward along the inclined surface. Further, the crucible is configured to alternate the left and right (rotational directions) of the laundry by stirring, and to alternately change the agitating blades 6 which are alternately changed. The heat exchange conduit 12 is used to dehumidify the humid air (circulating wind). One end of the heat exchange guide 12 is connected to the drain port 14 installed at the lower portion of the outer tank 3 via a freely extendable connecting duct, and the other end is connected to the fan 15 at the inlet side of the air circulation path 17. One end of the lower circulating wind receiving home 45. A heater 16 is provided on the upper portion of the fan 15. The air circulation path 17 is connected to the outlet side with a bellows-like hose 18 above the air discharge port 20. From the circulating air receiving chamber 45, through the upper bellows-like hose 18, a circulating air circulation path 17 is formed which is connected to the inner tank 4. The fan 15 constitutes the air blowing portion 65 by the air circulation route 17 and the air venting passage 201144515. The temperature detecting portion 35 is provided on the inlet side of the air circulation path 17, and the temperature detecting portion 36 is provided on the outlet side to detect the circulating air temperature at the time of the drying stroke. A filter is provided in the circulating air receiving chamber 45. The circulating air system circulates through the filter 46. The waste line or the like generated by the laundry is collected by the filter 46. A water injection port 66 is formed in the circulation air receiving chamber 45 on the inlet side of the air blowing portion 65. The water injection port 66 is connected to the water supply valve 32 by a hose 67, and the water supply valve 32 is attached by a support member 50 provided in an upper casing 48 to be described later. The water supply valve 32 is a water passage of two or more, and is formed by a plurality of valves that can be opened and closed. One water passage is connected to the upstream side of the fan 15 of the circulating air receiving chamber 45 by a small flow rate using a hose 67, and the other water passage is transmitted through the water supply member 52 by a water supply hose 68 at a large flow rate (which will be described later in FIG. 3). The inner tank 4 is connected to supply water as washing water to the inner tank 4. The outer tank 3 is provided with an outer tank cover 19 which hermetically covers the upper surface of the outer tank 3. The air discharge port 20' connected to the freely expandable upper bellows-shaped hose 18 on the outer tank cover 19 is opened at an outer position of the rotation shaft of the inner tank 4 and is located inside the fluid equalizer 7. Further, the outer tank cover 19 is provided with a middle cover 21 which can be freely opened and closed for taking out the laundry. The upper portion of the casing 1 is provided with a frame body 48 having an upper portion of the clothes insertion opening 47 at a substantially central portion (including a central portion). The upper frame 48 is provided with a freely openable and closable cover 49 covering the clothes insertion opening 47. At the bottom of the outer tank 3, a drain valve 22 for discharging water in the outer tank 3 is provided, and the heat exchange conduit 12 and the connecting duct 13 are connected via a drain duct 23. The drain from the connecting duct 13 and the heat exchange duct 12 is guided to the drain duct 23, the drain 201144515 water valve 22', and drained from the drain hose 24 to the outside of the machine. The cooling blower 25 is attached to the side surface of the casing 1, and cools the outer tank 3 and the heat exchange duct 12 inside the casing 1 to supply air. The control device 3 having the control unit 33, which will be described later, is formed in a concentrated manner. The control device 3 is disposed vertically (ie, slightly vertical with respect to the bottom surface of the casing 1 and is vertically vertical), and is disposed on the back portion of the casing 1 (the inner cover M2 is covered by the cover 43). The lower side of the control device 30 is provided with a cooling blower 25. The upper part of the upper frame 48 (on the left side of the first figure) is provided with an input setting for the operator to input a washing stroke, a water flushing stroke or a dehydrating stroke. 437' is a block diagram showing a display unit configured by a display unit 38, which will be described later, and a display unit 38, which will be described later. Fig. 2 is a block circuit diagram of the washing machine of the embodiment. The fan 15 that constitutes the motor (drive unit) 8, the clutch 9, and the blower unit 65, the heater 16, the drain valve 22, the cooling blower (cooling unit) 25, the water supply valve 32, the water suction pump 51, and the like are controlled via the load driving unit 3丨. The control unit 33 includes a control unit 33 for controlling washing, water washing, dehydrating, and drying, and a sterilization and deodorizing stroke. The control unit 33 is constituted by a microcomputer or the like, and is powered by a power source. The control unit 33 inputs the output of the water level temple 434 and the temperature detecting units 35 and 36, and displays the content set by the user input to the input setting unit 37 on the display unit 38. In addition, the control unit 3 3 controls the motor 8 , the clutch 9 , the fan of the air supply unit 65 , the heater 4144515 15 , the heater 16 , and the drain valve via the load driving unit 31 configured by two-way controllable stone, relay, or the like. 22. The cooling blower 25, the water supply valve Κ, the water absorbing system 51, and the like, and (4) washing, water washing, dehydrating, and drying each stroke. Further, the input setting unit 37 and the display unit 38 constitute an operation display unit 39», Further, the control unit 33 controls the electrostatic atomization generating device 55 via the electrostatic atomization driving unit of the control circuit, thereby controlling the _ and the deodorizing stroke. The control P is based on the drying stroke, and the temperature detecting unit 36 When the detected temperature has reached the first predetermined temperature (for example, 11 〇. 〇, the heater 16 is turned off. The control unit 33 is lowered from the temperature of the temperature detecting unit 35 at the time of closing to the second predetermined temperature (for example, 2 deg) will work The heater 15 adjusts the temperature of the circulating air. Fig. 3 is an exploded perspective view showing the main part of the washing machine of the embodiment. In Fig. 3, the support member 50 provided inside the rear portion of the upper casing 48 is provided with a water supply valve. 32. The water suction pump 51, the air circulation path 17, and the water injection member 52. The water supply valve 32 supplies tap water into the water tank, the water absorption system 51 draws water such as bath water, and the like, and the air circulation route 17 is the fan 15 The water-injecting member 52 is formed and the tap water is supplied from the water supply valve to the water tank, and the tap water is supplied to the water tank, and the member of the air-supply unit 65 is connected to the air circulation path 17 of the air blowing unit 65. The circulating air receiving chamber 45 is adjacent to each other, and an electrostatic atomization generating unit 53 (described later in FIG. 4) of the electrostatic atomizing device 55 (which will be described later in FIG. 4) is provided therein, and is attached from below the supporting member 5A and fixed. The support member 50 is attached from below the upper housing 48, and the screws 53a and 53b are screwed to the rear surface of the upper housing 48, and the upper screws 48c and 53d are screwed to the upper surface of the upper housing 48 to be fixed to the upper housing 48. Further, the rear portion of the support member 50 is fixed to the rear surface of the casing 1 by screws, 201144515. The basic operation from the washing of the washing machine of the present embodiment having the above-described configuration to the drying stroke will be described. From the washing to the fresh water rinsing stroke, the outer lid 49 is opened, the middle lid 21 is opened, the laundry and the lotion are put into the inner tank 4, and the motor is driven after the water supply to the predetermined water level is started. At this time, the clutch 9 of the transmission mechanism portion is transmitted to the stirring blade 6 via the washing shaft, and the laundry is caught by the stirring projection 11 of the stirring blade 6 due to the rotation of the search blade 6, and is sucked toward the center portion. Come in. The laundry in the lower portion of the center of the inner tub 4 is pushed upward toward the upper portion of the inner tub 4 by the laundry sucked in. The laundry in the inner tub 4 is so stirred, and the washing is performed by the mechanical force and the water flow force between the clothes or by the inner wall contacting the inner tank 4 or the search blade 6. In the dehydration stroke, after the washing is completed, the drain valve 22 is opened to discharge the water in the inner tank 4 from the drain hose 24. Thereafter, the clutch 9 of the transmission mechanism portion is switched to the dehydration side, and the power of the motor 8 is transmitted to the inner tub 4 via the dehydration shaft to rotate it. By imparting centrifugal force to the clothes, the water is separated from the laundry by water, and dehydration is performed. The clutch 9 is switched to the washing side, and the motor 8 is driven to the agitating blade 6, and the agitating blade 6 is rapidly rotated forward and reversed, and the laundry which is attached to the inner wall of the inner tub 4 after being dehydrated is peeled off. Then, the bellows 6 is rotated forward and reverse, and the clothes are caught by the stirring projections 11, and the air is blown to the air discharge port 20 by the air blowing portion 65 composed of the heater 16 and the fan 15 while stirring. . The warm air blown into the inner tank 4 from the air discharge port 20 is evaporating water from the clothes, and then exits from the inner tank 4 to the inner side of the outer tank 3 via the vent hole 4a, and then passes through the connection duct 13 from the drain passage port 14 to the heat. The conduit 12 is exchanged. 201144515 When the warm air containing moisture is removed and the warm air containing moisture is passed through the inner wall of the outer tank 3 or the heat exchange duct 12, the outside air flows in through the cooling blower 25 provided on the side of the casing 1. The outer tank 3 or the outer wall of the heat exchange conduit 12 is cooled. Thereby, the inside of the heat exchange conduit 2 is dew condensation of water, and the moist warm air is dehumidified into the circulating air receiving chamber 45, passes through the filter 46, and then returns to the fan 15. The laundry in the inner tank 4 can be dried by circulating the warm air through the circulation path. Further, at this time, the water supply valve 32 is supplied to the side of the hose 67, and the fan 15 injects a small amount of water from the water injection port 66 on the upstream side to the heat exchange conduit 12, and the water is dehumidified by dehumidification. In the sterilization and deodorization stroke, the electrostatic atomization device 55 (described later in FIG. 4) is operated by the driving of the fan 15, and the charged fine particle water is sent to the air discharge port 20 on the outlet side of the air circulation path 17. Inside the tank 4, the laundry is discharged from above. Fig. 4 is a cross-sectional view showing the main part of the electrostatic atomization generating unit portion 53 of the washing machine in the embodiment. In the fourth embodiment, an electrostatic atomization generating unit 55 that is fixed to the inside of the electrostatic atomizing mounting plate 63 and the mounting plate A57 is provided at the electrostatic atomization generating unit 53 that is mounted and fixed from below the supporting member 5A, and An electrostatic atomization drive unit 56 fixed to a control circuit of the mounting board (10). Further, although not shown in the drawing, the electrostatic atomization generating unit 55 and the electrostatic atomization driving unit 56 of the control circuit are electrically connected by a material or a connector. The mounting plate A57 is formed with an air inflow port 59 at the lower portion of the electrostatic atomization generating device 55. The side wall of the electrostatic atomization panel is formed with a charged fine particle water discharge port 6G at a position lower than that of the electrostatic atomization device 55. Charged micro 12 201144515 Particle water discharge port 60 is a circulating air receiving chamber 45 that is a component of the air blowing unit 65. Further, between the charged fine particle water discharge port 6 of the electrostatic atomizing mounting plate 63 and the electrostatic atomization generating device 55, the shielding wall 61 has a gap with the bottom surface of the mounting plate A57, and hangs below the rib-shaped leading end 61A, It is formed to sag to be lower than the lower end 6〇A of the electric particle water discharge port 6〇. Thereby, the charged fine particle water discharge port 60 and the electrostatic atomization generating device 55 can be shielded from the water by the intrusion of water from the hot parent changing conduit 12. Fig. 5 is an example of a sequence chart for discharging the charged microparticle water sterilization and deodorization stroke. Hereinafter, the operation of the sterilization and deodorization stroke will be described in accordance with Fig. 5. The sterilization and deodorization stroke, as shown in Fig. 5, consists of a stroke of about 2 minutes and a stroke of about 33 minutes. Further, although the sterilization and deodorization strokes are substantially the same control stroke as the drying stroke, the heater 16 is not operated, and the stirring blade 6 and the inner tub 4 are continuously rotated by a predetermined number of rotations, and the electrostatic atomization driving unit 56 is operated. The electrostatic atomization generating device 55 is operated for a predetermined period of time. First, during the air blowing stroke, the electrostatic atomization generating device 55 is not operated, and the fan 15 is driven to form a circulating air that flows from the air blowing portion 65 to the inner tank 4, the heat exchange conduit 12, and then returns to the air blowing portion 65. At the same time as the circulating air is formed, the small-flow water supply valve 32 is operated to start supplying water to the hose 67 side, and the small-flow water is injected from the water-injecting port of the upstream side to the heat exchange conduit 12 by the fan 15. At this time, the drain valve 22 is in an open state. The water contained in the circulating air is sucked by the fan 15, and is pulverized into fine water droplets, and the circulating wind becomes moisture-containing, and the route including the inner tank 4 is circulated. 13 201144515 The wind is changed from a dry state to a wet state. . In particular, if the sterilization is performed, the scent of the circulating wind is just the right, the right first Wei-dry stroke is low in the dry state, and the inner tank 4 is also in the state of high temperature low/', but by The temperature of the route also reduces the state in which the air supply stroke becomes wet, and then the water supply valve 32 stops, and the stroke of the sterilization and deodorization stroke is started. The electrostatic atomization drive unit % is driven by the instruction from the control unit 33, and the electrostatic atomization generation device 55 is turned on and contains water damage from the air flowing into the air. The dew condensation water is supplied to the electrostatic mist. Discharge electrode placed on the production line (not on the map). The charged electrode having a negative charge is generated in a large amount by the discharge electrode supplied with the dew condensation water to generate a negatively charged microparticle-sized charged microparticle water. The sterilization and deodorization strokes, although the heater 16 is not energized, has substantially the same control stroke as the drying stroke. Therefore, a large circulating wind is formed which flows through the air in the laundry in the inner tank 4, through the heat exchange conduit 12, into the circulating air receiving chamber 45' after passing through the filter 46, toward the fan 15, via the upper bellows hose 18, returning to the inner tank 4 by the air discharge port 20. By the flow of the large circulating wind, the electrostatic atomizing chamber 64 formed by the electrostatic atomizing mounting plate 63 and the mounting plate 57 via the charged fine particle water discharge port 60 and the circulating air receiving chamber 45 flows with respect to the circulating air. As the circulation route volume becomes smaller, it becomes a negative pressure state. Thereby, the charged fine particle water generated when the circulating air flows is sucked into the circulating air receiving chamber 45 from the charged fine particle water discharge port 6?. The charged particulate water which is sucked in is discharged into the inner tank 4 by the flow of the circulating wind. 201144515 When the circulating air containing ▼ electro-microparticle water flows, the motor 8 is driven, and the stirring of the clothes is performed by the rotation of the stirring blade 6 and the inner tank 4, and the charged micro-particle water is effectively adhered and penetrates into all corners of the laundry. Deodorization. As described above, in the present embodiment, the control unit 33 injects water into the heat exchange conduit 12 from the water injection port formed at the inlet side of the air blowing portion 65 during the sterilization and deodorization stroke. By this, an appropriate amount of moisture is added to the circulating air in advance, so that the inner side of the inner tank 4 is at a relative humidity of 20 to 85%. Therefore, in this stroke of the sterilization and deodorization stroke, the charged fine particle water from the electrostatic atomization generating device 55 can be effectively attached to the laundry. Therefore, the effect of sterilization and deodorization can be improved. Further, in the present embodiment, the water supply for the air blowing stroke during the sterilization and deodorization stroke is connected to the upstream side from the fan 15 of the circulating air receiving chamber 45. Therefore, the temperature in the inner tank 4 is not directly supplied to the laundry in the inner tank 4, and the fan 15 is pulverized into fine water droplets to form a spray state, and is supplied into the inner tank 4. Therefore, it is also possible to prevent the water droplets from adhering to the laundry which is in a dry state by the end of the drying stroke before the sterilization and deodorization stroke. As described above, the present invention includes: an outer groove that is elastically suspended and looted in the casing; the inner groove is used to receive the clothes, and is rotatably supported in the outer groove; It is used to knead the clothes and is placed in the bottom of the inner tank; the driving part drives the rotating inner groove or the stirring wing; the upper frame is installed in the upper part of the casing; 15 201144515 The air supply part supplies air to the inside In the tank; the water supply valve is installed in the upper frame; the heat exchange conduit is dehumidification and moisture; the electrostatic atomization generating unit is connected to the right ~/^, and the electrostatic atomization of the charged microparticle water by the electrostatic atomization of the straw The production unit; the control department 'mixed washing stroke, clearing and washing (four), and Guangquandun' and controlling the particle water to (4), deodorizing line/pass, sighing discharge of micro-bacteria, running water in deodorization stroke The valve is filled with water; the control unit is configured to be constructed from the money and the material. The inner tank, the heat exchange guide tube, ..., and then return to the circulating air of the air supply part, and the moisture of the eight-way degree, so that electrostatic atomization can be generated in an ampoule, and the charged particulate matter can be sterilized. Deodorization.岣 地 附着 、 浸 此 此 = = = = = = = = = = = = = = = = = = = = With the composition of ^, it is also possible to use the money to rape the water effectively, soaking the clothes, and performing sterilization and deodorization. Further, the inner groove of the present invention has a vent hole. According to this configuration, the charged fine particle water can be effectively adhered to and permeated into the clothes to perform sterilization and deodorization. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a longitudinal sectional view of a washing machine in an embodiment of the present invention. Figure 2 is a block diagram of the same washing machine. Fig. 3 is an exploded perspective view of the main part of the washing machine. Fig. 4 is a main part of the electrostatic atomization generating unit of the washing machine. 201144515 The fifth picture shows the sequence diagram of the sterilization and deodorization strokes of the washing machine. Figure 6 is a schematic cross-sectional view of a conventional laundry dryer. [Description of main component symbols] 35, 36... Temperature detection section. 37.. Input setting section 38.. Display section 39.. Display section operation display section 40.. Commercial power supply 41.. Power switch 42.. . Back part (Liu cover) 43... Cover 45.. . Circulating wind receiving room 46.. . Filtering device 47.. Clothing input port 48.. Upper frame body 49.. Cover 50. Supporting member 51.. Suction pump 52.. Water injection member 53.. Electrostatic atomization generating unit 53a, 53b, 53c, 53d... Screw 54 a, 54b... Screw 55.. Static fog Chemical generating device 56.. Electrostatic atomizing driving portion 57.. Mounting plate A 58.. Mounting plate B 59.. Air inlet 60.. Charged microparticle water discharge port 60A... Lower end 61.. Shielding wall 61A... apex 63.. Electrostatic atomizing mounting plate 64.. Electrostatic spraying chamber 65.. Venting part 1... Housing 2:. Hanging body 3... Outer groove 4.. Inner groove 4a... Ventilation hole 5.. Laundry. Dehydration shaft 6.. Stirring wing 7.. Fluid equalizer 8.. Motor (drive unit) 9.. Clutch 10... Inclined surface 11. .. Stirring protrusion 12.. Heat exchange duct 13.. Connecting duct 14.. Drainage port 15.. Fan 16... Heater 17.. . Route 18... Upper bellows hose 19.. Outer tank cover 20.. Air discharge port 21.. Middle cover 22.. Drain valve 23. Drain duct 24.. Drain hose 25 .. . Cooling blower 30.. Control device 31.. Load drive unit 32.. Water supply valve 33.. Control unit 34.. Water level detection unit 17 201144515 66...Water injection port 78... Drainage path 67...Hose 79... Opening 68... Water supply hose 80... Door 71... Washing machine 81... Electrostatic atomizing device 72... Washing machine body 82... Cabinet 73...the washing tank 83...the fan 74...the rotating drum 84...the air supply path 75...the water tank 85...the discharge path 76...the motor 77...the water supply path 18