201104185 六、發明說明: t發明所屬之技術領域ί 發明領域 本發明係有關於一種浴室換氣空調裝置。 【先前技術:j 發明背景 習知利用熱泵等之浴室換氣空調装置係於本體内内裝 有冷凍循環部、循環風扇及循環風扇馬達、換氣風扇及換 氣風扇馬達等之送風機部分。此處,冷凍循環部係包含壓 縮機、冷凝器及蒸發器等之熱交換器、減壓器等。循環風 扇及循環風扇馬達係將空調後之空氣送風至浴室。換氣風 扇及換氣風扇馬達等之送風機部分係將熱交換後之熱排氣 至屋外(例如,參照專利文獻1)。 在如此之習知浴室換氣空調裝置中,將浴室内之空氣 吸入到本體内空調之後,朝浴室、更衣室等之起居室送I', 或是朝屋外排氣,但是,在朝屋外排氣時有著所 ^ 出的問題。 【習知技術文獻】 【專利文獻】 【專利文獻1】特開平5-231675號公報 t發明内容2 發明概要 本發明係-種具有本料分及賴機部分之洛室換氣 空調裝置,其特徵在於:本體部分包含使浴室之空氣循二 201104185 的循環送風機、將浴室之空氣吸人的循環吸人口及將前述 空氣吹出至浴室的循環吹出口、具有循環吸人口及循環吹 出口的循環風路、連通於送風機部分的第—換氣口及第二 換氣口、形成於第-換氣口與第二換氣口之間的換氣風 路、壓縮冷媒的壓縮機、配設於循環吸入口與循環送風機 之間且使由循環吸入口吸入之空氣與冷媒進行熱交換的第 一熱交換器、使冷媒膨脹的膨脹機構'配設於換氣風路中 且使換氣風路之空氣與冷媒進行熱交換的第二熱交換器、 配管成使冷媒依壓縮機、第一熱交換器、膨脹機構及第二 熱交換器之順序循環的冷媒迴路、及分隔成可配置換氣風 路、循環風路、及壓縮機之壓縮區域的本體隔壁,而送風 機部分包含有從吸入部吸入浴室以外之他室的空氣且由吹 出部排出至屋外的換氣送風機、分隔吸入部與吹出部的送 風機隔壁、連通於連通朝設於吸入部之他室開口之至+ 一 個排氣口的他室吸入口及設於吸入部之本體部分的第—送 風口、及連通設於吹出部且朝屋外之換氣吹出口及設於吹 出部之本體部分的第二送風口,且將藉由換氣送風機從他 室吸入口吸人之空氣,㈣第-送風π、第—換氣口、換 氣風路、第二熱交換器、第二換氣口及第二送風 、,而由 換氣吹出口朝前述屋外排氣。 其結果,將由他室吸入口吸入之空氣從送風機部分— 次導至本體部分之後,可再次返回至送風機部分且朝屋外 吹出。因此,使由他室吸入口吸入之空氣通過配置於本體 部分之第二熱交換器而可回收熱,並可藉由該熱而使'谷+ 201104185 暖和。 圖式簡單說明 第1圖係顯示本發明實施形態1之浴室換氣空調裝置設 置於居住空間的簡圖。 第2圖係前述浴室換氣空調裝置之概略構成圖。 第3圖係本發明實施形態2之浴室換氣空調装置的概略 構成圖。 第4圖係本發明實施形態3之浴室換氣空調装置的概略 構成圖。 第5圖係本發明實施形態4之浴室換氣空調装置的概略 構成圖。 C實施方式】 較佳實施例之詳細說明 【用以實施發明之形態】 以下,就有關本發明之實施形態使用所附圖面予以說 明。 (實施形態1) 第1圖係顯示本發明實施形態1之浴室換氣空調裝置設 置的簡圖。於第1圖,屋内之居住空間1係劃分成客廳2、浴 室3、更衣室4或廁所5等。浴室3之天花板裏設置有浴室換 氣空調裝置之本體部分6與送風機部分7。且於本體部分6内 部配設有循環送風機8。運轉循環送風機8時,浴室3之空氣 從本體部分6之開口於浴室3側的循環吸入口 19 (參照第2圖) 吸入至本體部分6内,並通過循環送風機8從本體部分6之開 201104185 口於浴室3側之循環吹出口 2〇(參照第2圖)吹出至浴室3内。 又,換氣送風機9係配設於送風機部分7内部。第—排 氣管11及第二排氣管13係連接於換氣送風機9之吸入側。第 三排氣管14係連接於換氣送風機9之吹出側。此處,第一排 氣官11係連通開口於更衣室4之第一排氣口 10與送風機部 刀7。第二排氣管13係連通開口於廁所5之第二排氣口 12與 %風機部分7。第三排氣管14則連通屋外與送風機部分7。 運轉換氣送風機9時,更衣室4及廁所5之空氣從第—排 成口 10及第二排氣口 12,通過第-排氣管11及第二排氣管 ^而吸入至換氣送風機9,並通過第三排氣管14而排出至屋 為,且,連續運轉換氣送風機9時,起居空間丨内由於成 的負壓因此新鮮的外氣會從開口於客廳2面向屋外之牆壁 物之—’、虱,而使起居空間1換氣。該換氣運轉在建築 風機Γ進密糊蝴24小繼)°因此,換氣送 〜運轉’以確保預定之換氣量,例如確保相當 又J時起居空間i之約一半容積的換氣量。 夏天進行2控制客廳2溫度之空調機16設置於客廳2,使 溫。但IV ^轉’冬天進行暖氣運轉以適當地保持室 空調機16Α^述般全年進行連續減時,夏季於客廳以 運轉後之^運轉後之低溫的随、冬季以空調機16暖氣 窗、底切=的空氣通過更衣室4門17及廁所5門18的百葉 透過送風機二Γ=—排氣口10及叫 201104185 第2圖係本發明實施形態1之浴室換氣空調装置之概略 構成圖’且係顯示風路構成圖及冷媒迴路圖。洛室換氣扣 調農置係設置於浴室3之天花板内。 本體邹分6具有下列構成《即,使浴室3内空氣循環 之循環送風機8、開口於浴室3之循環吸入口 19及循環吹 出口 2〇以及浴室換氣口 21、可開閉循環吸入口 19之循環 ,入口開閉部22、可開閉浴室換氣口 21之浴室換氣口開^ 部23、連通送風機部分7之第一換氣口 24及第二換氣口 25、可開閉第一換氣口 24之第一換氣口開閉部26、可開閉 第一換氣口 25之第二換氣口開閉部27、形成於第—換氣口 2與第二換氣口 25間之換氣風路28、使換氣風路28與循 %迗風機8連通之再熱送風口 29、可開閉再熱送風口 29 之再熱送風口開閉部30、壓縮冷媒之壓縮機31、配設於循 環吸入口 19與循環送風機8之間且使從循環吸入口 19吸 入之空氣與冷媒熱交換之第一熱交換器32、循環送風機8、 具有循環吸入口 19及循環吹出口 20之循環風路28a、使冷 媒膨脹之膨脹機構33、配設於換氣風路28中且使換氣風路 28之空氣與冷媒熱交換之第二熱交換器34。而且形成冷媒 迴路,該冷媒迴路係以使冷媒依壓縮機31、第一熱交換器 =、膨脹機構33、第二熱交換器34之順序循環的方式配 :°再者,本體部分6係設有隔成配置有換氣風路28、循 乂風路28a、及壓縮機31之壓縮機區域28b的本體隔壁 28c。在分隔本體隔壁28c之換氣風路28與循環風路撕 的分’為了連通換氣風路28與循環風路28a而設有上述 201104185 再熱送風口 29。此處,浴室換氣口 21係設於面對 28之第二熱交換器34與第二換氣口 25間之浴」^路 分。其結果’藉由使浴室換氣口關部23開 的^ 口開閉部27開’且運轉換氣送風機9而可進行換孔 氣。 /至3之換 又,送風機部分7係具有以下構成。即, 之他室,例如更衣室4或廁所5自吸入部7a吸入空氣至且二卜 出部7b排出至屋外的換氣送風機9、連接用以搬運從更衣^ =入之糊第-_fn之嫩人叫、連接用以搬 運攸廊所5吸人之空氣的第三排氣管13之他μ人心 接用以將欲排氣之空氣搬運至屋外的第三排氣管Μ之換氣 ^出口 37、分隔與本體部分6連接之吸入部%與吹出料之 运風機隔壁40、於送風機隔壁4〇開口之24小時換氣口似 用以開閉24小時換氣口 4 j之24小時換氣口開閉部42、通常 係以蓋閉塞之第三送風口 43及第四送風口 44、閉塞第三送 風口之蓋45、及閉塞第四送風口44之蓋46。而且,以相異 個體方式構成本體部分6與送風機部分7並連接設置。又, 他至吸入口 35係連通於至少一個朝設於吸入部乃之他室開 口的排氣口。第一送風口38係連通於本體部分6。且第二送 八口 39及朝屋外之換氣吹出口 π係設於吹出部7b。並且第 —送風口 39連通於本體部分6。第三送風口 43設於吹出部7b 且第四送風口44設於吸入部7a。 於上述構成中,使循環吸入口開閉部22開、浴室換氣 開閉部23閉、第一換氣口開閉部26開、第二換氣口開閉 201104185 門。Μ μ再熱运風口開閉部30閉、24小時換氣口開閉部42 啜入二,用換氣送風機9而將從更衣室4及廁所5等他室 八6內氣由第送風口 38、第一換氣口 24導入至本體部 ::換氣風路28'然後’將該空氣藉由使通過第二熱交 ^而進行熱交換。之後,可由第二換氣口 25、第二送 尸外。再广導入至贼機部分7並由換氣吹出口 37排氣到 冑由將利用冷,東循環而於第二熱交換H34回收之 室熱運至第―熱交換㈣,並放熱至浴室3 内而可使浴室3内暖和。 第換氣口開閉部26閉、第二換氣口開閉部27 24小時換氣口開閉部们開。藉此,當進行不需從由他 至吸入〇35吸人之空氣中作熱回收的運轉時,不將由他室 Π 吸入之二氣導入至本體部分6内,而可從送風機部 刀7直接排礼到屋外。因此’換氣送風機9便無由他室吸入 吸入之工氣通過熱交換器時的壓力損失,而可提升換 氣時的效率。 又將閉塞第二送風口43及第四送風口 44之蓋45及蓋 6卸下^'藉由蓋45及蓋46閉塞第一送風口 38及第二送風 口 39。然後’藉由使送風機部分7 180度旋轉,而可使第三 运風口 43連通於第—換氣口 24設置,且使第四送風口 44連 通於第二減°25設置。其結果,不論是從左右哪-者皆 可吸入及排氣,且可提高排氣管之引導方向的自由度。亦 即’可變更朝送風機部分7之他室來的吸人方向及朝屋外之 吹出方向。 201104185 又,藉由使浴室換氣口開閉部23開、第一換氣口開閉 部26開、第二換氣口開閉部27開、24小時換氣口開閉部42 開,而可將浴室3内之空氣排氣至屋外。 又,使循環吸入口開閉部22閉、浴室換氣口開閉部23 開、第一換氣口開閉部26閉、第二換氣口開閉部27閉、再 熱送風口開閉部30開。藉此,從浴室換氣口 21將浴室3之空 氣吸入至本體部分6,並依第二熱交換器34、再熱送風口 29、第一熱交換器32、循環送風機8、循環吹出口 20之順序 送風,而可將浴室3内再熱除濕。 又,本體部分6由於具有浴室換氣口開閉部23及再熱送 風口開閉部30,因此可有以下之情事。於暖氣運轉時使循 環吸入口開閉部22開、再熱送風口開閉部30閉、浴室換氣 口開閉部23閉、第一換氣口開閉部26開、第二換氣口開閉 部27開且24小時換氣口開閉部42閉,而運轉壓縮機31、循 環送風機8及換氣送風機9。於除濕運轉時使循環吸入口開 閉部22閉、再熱送風口開閉部30開、浴室換氣口開閉部23 開、第一換氣口開閉部26閉且第二換氣口開閉部27閉,而 運轉壓縮機31及循環送風機8。藉此,可切換暖氣運轉與除 濕運轉,又,於除濕運轉時使24小時換氣口開閉部41開而 運轉換氣送風機9時,可進行浴室3以外之他室換氣。 如此,依據本發明實施形態1之浴室換氣空調裝置,藉 由切換各種開閉部,而可回收浴室3以外之他室的熱,以將 浴室3内進行暖氣、再熱除濕,及將浴室3内之空氣進行換 氣。又,施工時可使送風機部分7之方向左右反轉。 10 201104185 而且,以上說明之内容係僅就有關用以實施發明之一 形態予以說明者,本發明並不限於上述實施形態。 例如,在本實施形態1中係使本體部分6具有第一換氣 y開閉部26及第二換氣口開閉部27之構成,作為開閉本體 部分6與送風機部分7之連接部分的機構。然而,也可是構 成為將開閉機構設於送風機部分7之第一送風口 3 8、第二送 風口39或是第三送風口43、第四送風叫。亦即,將用以 1第送風口 38之第一送風口開閉部、及用以開閉第二 送風口 39之第二送風口開閉部設於送風機部分7。 又,作為他室的例子雖記載有更衣室4與廁所5,但是 若在居住空間1内時,也可將任一空間作為他室。 又’構成為將第一換氣口開閉部26及第二換氣口開閉 部27各別驅動。但是,在第―換氣口開閉部%與第二換氣 口開閉部27之動作經常是相同時,也可藉由連繫第一換氣 口開閉部26與第二換氣π開閉部27的袖,而利用同一袖使 -體化而驅動。亦即’也可為將相鄰接之第—換氣口開閉 部2 6與第二換氣Q開閉部2 7 -體化之換氣口開閉部。 (實施形態2) 第3圖係本發明實施形態2之浴室換氣空調裝置的概略 構成圖。本發明之實施形態2中’與實施形態旧同之構成 要素賦予相⑽號,而只說明相異點。本發明實施形態2之 浴室換氣空崎置係僅在從錯直方向將實施形態ι之浴室 換氣空調裝置之第一熱交換器32及第二熱交換㈣傾斜配 置的點相異。 201104185 藉由上述構成,而可使熱交換器容積較貫施形態1之第 一熱交換器32及第二熱交換器34大。又,由於將第一熱交 換器32及第二熱交換器34之前後的空間作成三角形的形狀 而可變廣,因此可降低通風阻力,且可使各熱交換器之風 速分布優良化。其結果可提高暖房能力、除濕能力。 (實施形態3) 第4圖係本發明實施形態3之浴室換氣空調裝置的概略 構成圖。在本發明實施形態3中,對與實施形態丨及2相同之 構成要素賦予相同符號,而僅說明相異點。 本發明實施形態3之浴室換氣空調裝置,如第4圖户 不,係藉由設置將上述實施形態2之浴室換氣空調裝置之令 環吸入口開閉部22與再熱送風口開閉部30—體化後之循^ 再熱切換部47,而可減少一個開閉機構並可降低零件個數 又,藉由構成為具有將循環送風機8與循環吹出口 2〇 ^ 几化後之循環送風單純,且可從本體部分6輕易地卸下^ 而可於維修時;};將本體部分6卸下而只將循環送風 從浴室3側卸下以進行維修。 70 換氣〇 ,使構成為可將循環吸入口開閉部22、第 開閉部26、第二換氣口開閉部27、再熱送風口開 «再熱切換部47及浴錢氣口_部邱本”、 易地却下。藉此,於維修時可不將本體部分6卸下,而 獨地將循環吸入口開閉部22、第—換氣口開閉部‘I早 換氣口開閉部27、再熱送風口開閉部 47及洛室換氣口_邱 — {再熱切換部 開閉。P23之母一個從浴室3側卸下,以進行 12 201104185 維修。 (實施形態4) 第5圖係本發明實施形態4之浴室換氣空調裝置之概略 構成圖。在本發明之實施形態4中,對與實施形態1〜3相同 之構成要素賦予相同的符號,而僅說明相異點。 本發明實施形態4之浴室換氣空調裝置,如第5圖所 示’係將冷媒依壓縮機31、第一熱交換器32、膨脹機構33、 第二熱交換器34之順序循環的方式配管的冷媒迴路固定於 底座49上。然後,從外裝盒53以排水泵固定機構53將蓄積 第二熱交換器34所發生之結露水的排水盤50、用以將續積 在排水盤50之排洩水排水的排水泵51設置於底座49,並藉 由將該等冷媒迴路單元化,而可從本體部分6只將冷媒迴路 朝浴室3側卸下以進行維修。 又’排水盤50係可從底座49單獨地卸下以進行維修。 於第5圖,構成為以設於外裝盒53之排水泵固定部54將排水 泵51固定’而在卸下排水盤50進行維修之際,便構成為排 水泵51殘留在本體部分6 (外裝盒53)側。雖也可構成為排 水泵51直接固定於排水盤50,但是由於直接固定於排水盤 50時’在卸下排水盤50之際排水泵也同時要脫落,因此必 須要拆下排水用之排水管的連接。於將排水泵51固定於外 裝盒53的構成中’係可單獨將排水盤50卸下,並可在卸下 排水盤50之後將連接於排水泵51之排水管拆下。 【產業上之利用可能性】 本發明係將從更衣室及廟所之他室吸入口吸入之空氣 13 201104185 導入至本體内並使通過熱交換器。藉此,回收習知從他室 吸入口吸入而排氣至屋外的熱,以進行使浴室暖和,而可 實現高能源效率之浴室換氣空調裝置。因此,可利用於一 般家庭、事務所及業務用浴室設施等眾多之建築物、設施。 【圖式簡單說明3 第1圖係顯示本發明實施形態1之浴室換氣空調裝置設 置於居住空間的簡圖。 第2圖係前述浴室換氣空調装置之概略構成圖。 第3圖係本發明實施形態2之浴室換氣空調装置的概略 構成圖。 第4圖係本發明實施形態3之浴室換氣空調装置的概略 構成圖。 第5圖係本發明實施形態4之浴室換氣空調裝置的概略 構成圖。 【主要元件符號說明】 1...居住空間 8...循環送風機 2...客龐 9...換氣送風機 3...浴室 10…第一排氣口 4...更衣室 11...第一排氣管 5...廁所 12...第二排氣口 6...本體部分 13...第二排氣管 7...送風機部分 14.··第三排氣管 7a...吸入部 15...供氣口 7b...吹出部 16...空調機 14 201104185 17···門 18.. .門 19.. .循環吸入口 20.. .循環吹出口 21.. .浴室換氣口 22.. .循環吸入口開閉部 23.. .浴室換氣口開閉部 24…第一換氣口 25.. .第二換氣口 26.. .第一換氣口開閉部 27.. .第二換氣口開閉部 28.. .換氣風路 28a...循環風路 28b...壓縮機區域 28c...本體隔壁 29.. .再熱送風口 30.. .再熱送風口開閉部 31.. .壓縮機 32.. .第一熱交換器 33.. .膨脹機構 34.. .第二熱交換器 35.. .他室吸入口 37…換氣吹出口 38…第一送風口 39…第二送風口 40.. .送風機隔壁 41.. .24.時換氣口開閉部 42.. .24.時換氣口開閉部 43·.·第三送風口 44···第四送風口 45.••蓋 46.. .蓋 47.. .循環再熱切換部 48.. .循環送風單元 49.. .底座 50.. .排水盤 51.. .排水泵 53.. .外裝盒 54.. .排水泵固定機構 15201104185 VI. OBJECTS OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a bathroom ventilating air conditioner. [Prior Art: J BACKGROUND OF THE INVENTION A bathroom ventilating air conditioner using a heat pump or the like is conventionally provided with a blower portion including a refrigeration cycle unit, a circulation fan, a circulation fan motor, a ventilation fan, and a ventilation fan motor. Here, the refrigeration cycle unit includes a heat exchanger such as a compressor, a condenser, and an evaporator, a pressure reducer, and the like. The circulating fan and the circulating fan motor supply air from the air conditioner to the bathroom. The blower portion of the ventilating fan and the ventilating fan motor exhausts the heat after the heat exchange to the outside (for example, refer to Patent Document 1). In such a conventional bathroom ventilation air conditioner, after the air in the bathroom is sucked into the air conditioner of the body, the air is sent to the living room of the bathroom, the dressing room, etc., or is exhausted toward the outside, but is arranged outside the house. There is a problem with the gas. [Patent Document 1] [Patent Document 1] Japanese Laid-Open Patent Publication No. Hei No. 5-231675. SUMMARY OF THE INVENTION The present invention relates to a room-room ventilating and air-conditioning apparatus having a material portion and a sling portion. The utility model is characterized in that the main body part comprises a circulating blower for making air of the bathroom, and a circulating air blower for sucking the air of the bathroom, and a circulating air outlet for blowing the air to the bathroom, and a circulating air having a circulating suction population and a circulating air outlet. a road, a first air exchange port and a second air exchange port connected to the air blower portion, a ventilation air passage formed between the first air exchange port and the second air exchange port, a compressor for compressing the refrigerant, and a circulation A first heat exchanger that exchanges heat between the suction port and the circulating blower and exchanges air sucked by the circulating suction port with the refrigerant, and an expansion mechanism that expands the refrigerant are disposed in the ventilation air passage and the ventilation air path is a second heat exchanger that exchanges heat between the air and the refrigerant, and a pipe that is a refrigerant circuit that circulates the refrigerant in the order of the compressor, the first heat exchanger, the expansion mechanism, and the second heat exchanger, and is partitioned into The ventilation air passage, the circulation air passage, and the main body partition wall of the compression region of the compressor may be disposed, and the blower portion includes a ventilation blower that is taken out from the other side of the bathroom from the suction portion and discharged to the outside by the blowing portion, and separated The suction portion of the suction portion and the blower portion communicates with the other chamber inlet to the + one exhaust port provided to the opening of the other portion of the suction portion, and the first air supply port and the communication portion provided in the main portion of the suction portion a ventilating outlet opening to the outside of the room and a second air supply opening provided in the body portion of the blowing portion, and sucking the air from the suction port of the chamber by the ventilation blower, (4) the first air supply π, the first The ventilation port, the ventilation air passage, the second heat exchanger, the second air exchange port, and the second air supply are exhausted to the outside by the ventilation air outlet. As a result, the air taken in by the suction port of the chamber is guided from the blower portion to the body portion, and can be returned to the blower portion again and blown out of the room. Therefore, the air sucked in from the suction port of the chamber can pass through the second heat exchanger disposed in the body portion to recover heat, and the heat can be made to warm the valley + 201104185. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a bathroom ventilation and air-conditioning apparatus according to a first embodiment of the present invention, which is placed in a living space. Fig. 2 is a schematic configuration diagram of the above-described bathroom ventilation air conditioner. Fig. 3 is a schematic view showing the configuration of a bathroom ventilation and air-conditioning apparatus according to a second embodiment of the present invention. Fig. 4 is a schematic block diagram of a bathroom ventilation and air-conditioning apparatus according to a third embodiment of the present invention. Figure 5 is a schematic configuration diagram of a bathroom ventilation and air-conditioning apparatus according to a fourth embodiment of the present invention. C. BEST MODE FOR CARRYING OUT THE INVENTION [Embodiment for Carrying Out the Invention] Hereinafter, embodiments of the present invention will be described with reference to the drawings. (Embodiment 1) Fig. 1 is a schematic view showing the arrangement of a bathroom ventilation and air-conditioning apparatus according to Embodiment 1 of the present invention. In Fig. 1, the living space 1 in the house is divided into a living room 2, a bath room 3, a dressing room 4, a toilet 5, and the like. The body portion 6 of the bathroom ventilation air conditioner and the blower portion 7 are provided in the ceiling of the bathroom 3. A circulating blower 8 is disposed inside the body portion 6. When the circulating blower 8 is operated, the air of the bathroom 3 is sucked into the body portion 6 from the circulating suction port 19 (refer to Fig. 2) of the body portion 6 opening on the side of the bathroom 3, and is opened from the body portion 6 by the circulating blower 8 201104185 The circulation outlet 2 (refer to Fig. 2) on the side of the bathroom 3 is blown out into the bathroom 3. Further, the ventilation blower 9 is disposed inside the blower portion 7. The first exhaust pipe 11 and the second exhaust pipe 13 are connected to the suction side of the ventilation blower 9. The third exhaust pipe 14 is connected to the blowing side of the ventilation blower 9. Here, the first exhaust gas 11 is connected to the first exhaust port 10 and the blower blade 7 that are opened to the locker chamber 4. The second exhaust pipe 13 communicates with the second exhaust port 12 and the % fan portion 7 that are open to the toilet 5. The third exhaust pipe 14 communicates with the outside of the air and the blower portion 7. When the converter air blower 9 is operated, the air in the changing room 4 and the toilet 5 is sucked from the first exhaust port 10 and the second exhaust port 12 through the first exhaust pipe 11 and the second exhaust pipe to the ventilation blower. 9, and discharged to the house through the third exhaust pipe 14, and when the converter air blower 9 is continuously operated, the fresh air outside the living space is opened from the wall facing the living room 2 due to the negative pressure. Things - ', 虱, and make the living space 1 ventilate. The ventilation operation is carried out in the building fan, and the air is sent to the operation to ensure the predetermined amount of ventilation, for example, to ensure the ventilation volume of about half of the volume of the living space i. . In the summer, 2 air conditioners 16 that control the living room 2 temperature are set in the living room 2 to make the temperature. However, IV ^ turn 'heating operation in winter to properly maintain the room air conditioner 16 Α 般 般 般 般 般 般 全年 全年 全年 全年 全年 全年 全年 , , 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当 适当The undercut=air passes through the louver of the locker room 4 and the louver of the toilet 5 and the ventilator 2 Γ = vent 10 and 201104185. FIG. 2 is a schematic diagram of the bathroom ventilating and air-conditioning apparatus according to the first embodiment of the present invention. 'And shows the wind path composition diagram and the refrigerant circuit diagram. The room ventilation button is set in the ceiling of the bathroom 3. The main body portion 6 has the following configuration, that is, a circulation blower 8 for circulating air in the bathroom 3, a circulation suction port 19 opening to the bathroom 3, a circulation air outlet 2, a bathroom air inlet 21, and an openable and closable suction port 19; The circulation opening, opening and closing portion 22, the bathroom vent opening 23 of the openable and ventilated bathroom vent 21, the first venting port 24 and the second venting port 25 of the communicating fan portion 7, and the first venting opening and closing a first ventilation opening and closing portion 26 of 24, a second ventilation opening and closing portion 27 that can open and close the first ventilation port 25, and a ventilation air passage formed between the first ventilation port 2 and the second ventilation port 25. 28. The reheat air supply port 29 for connecting the ventilation air passage 28 to the % 迗 fan 8, the reheat air supply opening and closing portion 30 for opening and closing the reheat air supply port 29, the compressor 31 for compressing the refrigerant, and the circulation suction a first heat exchanger 32 that exchanges air between the port 19 and the circulating blower 8 and exchanges air sucked from the circulating suction port 19 with the refrigerant, a circulating blower 8, a circulating air passage 28a having a circulating suction port 19 and a circulating air outlet 20, The expansion mechanism 33 that expands the refrigerant is disposed in the ventilation air passage 28 and The second heat exchanger 28 air passage of the air of the heat exchange with the refrigerant 34. Further, a refrigerant circuit is formed which is arranged such that the refrigerant circulates in the order of the compressor 31, the first heat exchanger =, the expansion mechanism 33, and the second heat exchanger 34: Further, the body portion 6 is provided The main body partition wall 28c is provided with a ventilation air passage 28, a circulation air passage 28a, and a compressor region 28b of the compressor 31. The 201104185 reheat air supply port 29 is provided to connect the ventilation air passage 28 and the circulation air passage 28a to the ventilation air passage 28 that partitions the main body partition wall 28c and the circulation air passage. Here, the bathroom vent 21 is provided in the bath between the second heat exchanger 34 facing the 28 and the second ventilating port 25. As a result, the gas is exchanged by the opening and closing portion 27 of the bathroom vent opening portion 23, and the gas transfer fan 9 is operated. / To 3, the blower portion 7 has the following configuration. That is, the other room, for example, the dressing room 4 or the toilet 5, takes in air from the suction portion 7a, and the diverting portion 7b is discharged to the outside of the ventilation fan 9 for connection, and is connected for transporting from the dressing ^=into the paste-_fn The tender person calls and connects the third exhaust pipe 13 for carrying the air of the suction of the porch, and the other person connects the air to be exhausted to the third exhaust pipe outside the house. The outlet 37, the suction portion % connected to the main body portion 6 and the blower partition wall 40 of the blow-off material, and the 24-hour air exchange opening of the blower partition wall 4 opening are used to open and close the 24-hour ventilation port 4 j for 24 hours ventilation. The opening and closing portion 42 is usually a third air supply port 43 and a fourth air supply port 44 that are closed by a cover, a cover 45 that closes the third air supply port, and a cover 46 that closes the fourth air supply port 44. Further, the body portion 6 and the blower portion 7 are formed in a different manner and connected. Further, he is connected to the suction port 35 to at least one of the exhaust ports provided to the opening of the other chamber provided in the suction portion. The first air supply port 38 is in communication with the body portion 6. Further, the second delivery port 39 and the ventilation air outlet π outside the house are provided in the blowing portion 7b. And the first air supply port 39 is in communication with the body portion 6. The third air supply port 43 is provided in the blowing portion 7b, and the fourth air blowing port 44 is provided in the suction portion 7a. In the above configuration, the circulation suction port opening and closing portion 22 is opened, the bathroom ventilation opening and closing portion 23 is closed, the first ventilation port opening and closing portion 26 is opened, and the second ventilation port is opened and closed 201104185. Μ μ, the hot air outlet opening and closing unit 30 is closed, the 24-hour air inlet opening and closing unit 42 is turned into two, and the ventilation air blower 9 is used, and the air supply port 38 is used from the dressing room 4 and the toilet room 5 The first venting port 24 is introduced to the body portion: the ventilating air passage 28' and then 'the air is exchanged for heat by passing through the second heat. After that, it can be sent to the outside by the second ventilation port 25 and the second. It is further introduced into the thief machine part 7 and exhausted by the ventilating air outlet 37 to the ― by the cold, east cycle and the second heat exchange H34 recovery room heat to the first heat exchange (four), and radiated to the bathroom 3 The inside of the bathroom 3 can be warmed inside. The first vent opening and closing portion 26 is closed, and the second vent opening and closing portion 27 is opened 24 hours. Thereby, when the operation is performed without heat recovery from the air sucked by him to the suction port 35, the two airs sucked by the other chambers are not introduced into the body portion 6, but can be directly from the blower portion knife 7. Rehearsing outside the house. Therefore, the ventilating blower 9 does not have the pressure loss when the inhaled working gas passes through the heat exchanger, and the efficiency at the time of ventilation can be improved. Further, the cover 45 and the cover 6 that close the second air supply port 43 and the fourth air supply port 44 are detached, and the first air supply port 38 and the second air supply port 39 are closed by the cover 45 and the cover 46. Then, by rotating the blower portion 7 180 degrees, the third air transfer port 43 can be connected to the first air exchange port 24, and the fourth air supply port 44 can be connected to the second minus 25 setting. As a result, both the right and left can be sucked and exhausted, and the degree of freedom in the guiding direction of the exhaust pipe can be improved. That is, it is possible to change the direction of the suction toward the room of the blower portion 7 and the direction in which it is directed toward the outside. 201104185 Further, the bathroom vent opening and closing portion 23 is opened, the first vent opening and closing portion 26 is opened, the second vent opening and closing portion 27 is opened, and the ventilating opening and closing portion 42 is opened for 24 hours, so that the bathroom 3 can be opened. The air inside is exhausted to the outside. Further, the circulation suction port opening and closing portion 22 is closed, the bathroom ventilation port opening and closing portion 23 is opened, the first ventilation port opening and closing portion 26 is closed, the second ventilation port opening and closing portion 27 is closed, and the reheat air supply opening and closing portion 30 is opened. Thereby, the air of the bathroom 3 is sucked from the bathroom vent 21 to the body portion 6, and according to the second heat exchanger 34, the reheat air supply port 29, the first heat exchanger 32, the circulating blower 8, and the circulation blower 20 The order is supplied with air, and the bathroom 3 can be reheated and dehumidified. Further, since the main body portion 6 has the bathroom air inlet opening and closing portion 23 and the reheat air outlet opening and closing portion 30, the following cases are possible. When the heating operation is performed, the circulation suction port opening and closing portion 22 is opened, the reheat air supply opening and closing portion 30 is closed, the bathroom ventilation port opening and closing portion 23 is closed, the first ventilation port opening and closing portion 26 is opened, and the second ventilation port opening and closing portion 27 is opened. Further, the 24-hour air inlet opening and closing portion 42 is closed, and the compressor 31, the circulating blower 8, and the ventilation blower 9 are operated. When the dehumidifying operation is performed, the circulation suction port opening and closing portion 22 is closed, the reheat air supply opening and closing portion 30 is opened, the bathroom air inlet opening and closing portion 23 is opened, the first air port opening and closing portion 26 is closed, and the second air port opening and closing portion 27 is closed. The compressor 31 and the circulating blower 8 are operated. In this way, the heating operation and the dehumidification operation can be switched, and when the ventilation air opening and closing unit 41 is opened and the switching air blower 9 is opened during the dehumidifying operation, the other room other than the bathroom 3 can be ventilated. As described above, according to the bathroom ventilation and air-conditioning apparatus according to the first embodiment of the present invention, by switching various opening and closing portions, the heat of the other chambers other than the bathroom 3 can be recovered, and the inside of the bathroom 3 can be heated, reheated, and dehumidified, and the bathroom 3 can be The air inside is ventilated. Further, the direction of the blower portion 7 can be reversed left and right during construction. Further, the above description is only for the description of one embodiment for carrying out the invention, and the present invention is not limited to the above embodiment. For example, in the first embodiment, the main body portion 6 has the first ventilation y opening and closing portion 26 and the second ventilation opening/closing portion 27 as a mechanism for opening and closing the connection portion between the main body portion 6 and the blower portion 7. However, the opening/closing mechanism may be provided in the first air supply port 38, the second air supply port 39 or the third air supply port 43, and the fourth air blowing port of the air blower portion 7. In other words, the first air supply opening and closing portion for the first air supply port 38 and the second air supply opening and closing portion for opening and closing the second air supply port 39 are provided in the blower portion 7. Further, although the dressing room 4 and the toilet 5 are described as an example of the room, any space may be used as the room when the living space 1 is used. Further, the first air vent opening and closing portion 26 and the second air vent opening and closing portion 27 are driven separately. However, when the operation of the first ventilation port opening and closing portion % and the second ventilation port opening and closing portion 27 is often the same, the first ventilation port opening and closing portion 26 and the second ventilation π opening and closing portion 27 may be connected. The sleeves are driven by the same sleeve. In other words, the ventilating opening and closing portion that is adjacent to the first ventilating opening and closing portion 26 and the second ventilating opening and closing portion 274 may be formed. (Embodiment 2) FIG. 3 is a schematic configuration diagram of a bathroom ventilation and air-conditioning apparatus according to Embodiment 2 of the present invention. In the second embodiment of the present invention, the same constituent elements as in the embodiment are given the phase (10), and only the differences are described. In the second embodiment of the present invention, the bathroom ventilation ventilator is different in that the first heat exchanger 32 and the second heat exchange (four) of the bathroom ventilating and air-conditioning apparatus of the embodiment ι are arranged obliquely from the direction of the misalignment. According to the above configuration, the heat exchanger volume can be made larger than the first heat exchanger 32 and the second heat exchanger 34 of the first embodiment. Further, since the space before and after the first heat exchanger 32 and the second heat exchanger 34 are formed in a triangular shape, the ventilation resistance can be reduced, and the wind speed distribution of each heat exchanger can be improved. The result is improved warming capacity and dehumidification capacity. (Embodiment 3) FIG. 4 is a schematic configuration diagram of a bathroom ventilation and air-conditioning apparatus according to Embodiment 3 of the present invention. In the third embodiment of the present invention, the same components as those in the embodiments 丨 and 2 are denoted by the same reference numerals, and only the differences will be described. In the bathroom ventilating and air-conditioning apparatus according to the third embodiment of the present invention, the ring suction port opening and closing portion 22 and the reheat air port opening and closing portion 30 of the bathroom ventilating and air-conditioning apparatus according to the second embodiment are provided. After the elaboration, the reheating switching portion 47 can reduce one opening and closing mechanism and reduce the number of parts, and is configured to have a simple circulation and supply of the circulating air blower 8 and the circulating air outlet 2 And can be easily removed from the body portion 6 and can be repaired;}; the body portion 6 is removed to remove only the circulating air from the bathroom 3 side for maintenance. 70 ventilating 〇, so that the circulation suction port opening and closing portion 22, the opening and closing portion 26, the second ventilation port opening and closing portion 27, and the reheat air supply port can be configured to open the "reheat switching portion 47 and the bath money port" In addition, the main body portion 6 is not detached during maintenance, and the circulation suction opening and closing portion 22, the first ventilating opening and closing portion 'I early air vent opening and closing portion 27, and reheating are separately provided. The air outlet opening and closing portion 47 and the bellows air exchange port _ Qiu - {reheat switching portion is opened and closed. One of the mothers of P23 is detached from the bathroom 3 side to perform maintenance for 12 201104185. (Embodiment 4) FIG. 5 is an embodiment of the present invention. In the fourth embodiment of the present invention, the same components as those in the first to third embodiments are denoted by the same reference numerals, and only the differences will be described. The bathroom ventilation air conditioner is fixed to the refrigerant circuit in which the refrigerant is circulated in the order of the compressor 31, the first heat exchanger 32, the expansion mechanism 33, and the second heat exchanger 34, as shown in Fig. 5 On the base 49. Then, from the outer casing 53, the drain pump fixing mechanism 53 A drain pan 50 for accumulating dew condensation water generated in the second heat exchanger 34, a drain pump 51 for draining the drain water discharged from the drain pan 50, and a drain pump 51 for draining the drain pan 50 are provided in the base 49, and the refrigerant circuit is unitized by Further, only the refrigerant circuit can be detached from the main body portion 6 toward the bathroom 3 side for maintenance. Further, the drain pan 50 can be individually detached from the base 49 for maintenance. In Fig. 5, it is configured to be externally mounted. The drain pump fixing portion 54 of the cartridge 53 fixes the drain pump 51, and when the drain pan 50 is removed for maintenance, the drain pump 51 is left on the main body portion 6 (outer case 53). The drain pump 51 is directly fixed to the drain pan 50. However, since it is directly fixed to the drain pan 50, the drain pump also needs to be detached at the same time when the drain pan 50 is removed. Therefore, it is necessary to remove the drain pipe connection. In the configuration in which the drain pump 51 is fixed to the outer casing 53, the drain pan 50 can be separately removed, and the drain pipe connected to the drain pump 51 can be removed after the drain pan 50 is removed. [Industrial use may be possible The invention is from the locker room and the temple room Intake air 13 201104185 is introduced into the body and passes through the heat exchanger. Thereby, the heat that is inhaled from the suction port of the room and exhausted to the outside of the room is recovered to warm the bathroom and achieve high energy efficiency. The bathroom ventilation air conditioner is used. Therefore, it can be used in many buildings and facilities such as general households, offices, and business bath facilities. [Simplified Drawings 3] Fig. 1 shows a bathroom ventilation air conditioner according to Embodiment 1 of the present invention. Fig. 2 is a schematic configuration diagram of the above-described bathroom ventilating and air-conditioning apparatus. Fig. 3 is a schematic configuration diagram of a bathroom ventilating and air-conditioning apparatus according to a second embodiment of the present invention. A schematic configuration diagram of a bathroom ventilation and air-conditioning apparatus according to a third embodiment. Figure 5 is a schematic configuration diagram of a bathroom ventilation and air-conditioning apparatus according to a fourth embodiment of the present invention. [Main component symbol description] 1...Living space 8...Circulating blower 2...Gupeng 9...Ventilator blower 3...Bathroom 10...First exhaust port 4...Locker room 11 ...first exhaust pipe 5...toilet 12...second exhaust port 6...body portion 13...second exhaust pipe 7...air blower portion 14.··third row Air pipe 7a...suction portion 15...air supply port 7b...blowing portion 16...air conditioner 14 201104185 17···door 18.. door 19.. Circulating suction port 20.. Circulating outlet 21. The bathroom vent 22.. Circulating suction opening and closing portion 23.. Bathroom vent opening and closing portion 24... First venting port 25... Second venting port 26.. First air inlet opening and closing portion 27.. second air port opening and closing portion 28.. ventilation air passage 28a... circulation air passage 28b... compressor region 28c... body partition wall 29.. Reheating air supply port 30.. Reheat air supply opening and closing part 31.. Compressor 32.. First heat exchanger 33.. Expansion mechanism 34.. Second heat exchanger 35.. Suction port 37...Ventilator outlet 38...First air supply port 39...Second air supply port 40.. Fan outlet wall 41..24. Ventilation port opening and closing portion 42..24. Ventilation port opening and closing portion 43···third air supply port 44···fourth air supply port 45.•• cover 46.. cover 47.. cycle reheat switching unit 48..circulation air supply unit 49.. base 50.. Drainage pan 51.. Drain pump 53.. Outer box 54.. Drain pump fixing mechanism 15