536607 iiS薩if翻臓之撕纖、鎌雜、随、麵放及圖式簡 單說明) 發明镅域536607 iiS Saif torn through the torn fiber, sickle, random, surface and simple illustration) Invention Field
本發明係有關於一種壁掛式空調裝置’在空調機本體 的空氣送風口具有風向變更板。The present invention relates to a wall-mounted air conditioner 'having an air direction changing plate at an air outlet of an air conditioner body.
從來的枝術 一般習知在空調機本體的渦卷形(scroll)部及舌部所圍 繞的空氣送風口內,具有風向變更板的壁掛式空調裝置。 此種壁掛式空調裝置的結構,使風向變更板,例如,由二 片的水平風門板(flap)及複數片的垂直風門板加以構成, 可藉由改變此等水平風門板及垂直風門板的方向,以控制 從空氣送風口吹出的氣流之方向。Conventional branching is generally known as a wall-mounted air conditioner having a wind direction changing plate in an air supply port surrounded by a scroll portion and a tongue portion of an air conditioner body. The structure of such a wall-mounted air conditioner allows the wind direction changing plate to be composed of, for example, two horizontal flaps and a plurality of vertical flaps. The horizontal flaps and vertical flaps can be changed by Direction to control the direction of the airflow from the air outlet.
例如,在冷氣運轉時,實行使氣流大略向水平吹出, 以增大氣流的到達距離的控制,在暖氣運轉時,實行使氣 流大略向垂直下方吹出,以形成沿地面氣流的控制。 靈朋欲解決的問題 但是,由二片水平風門板及複數片的垂直風門板所構 成的習知結構,在暖氣運轉時,或冷氣運轉時,甚爲困難 使暖氣或冷氣,以均勻的到達空調室內的各個角落。 本發明之目的係提供一種壁掛式空調裝置,考慮上述 9376pifl.doc/015(娜J 底線) 6 536607 問題’可使暖氣或冷氣到達空調室內的各個角落,能使空 調室內以均勻的加以空調。 解決問穎的丰段 本發明之一種壁掛式空調裝置的實施型態,其空調機 本體的空氣送風口具有風向變更板,上述風向變更皮係包 括複數片上側水平風門板。一片下側水平風門板、及複數 片垂直風門板。其中,複數片上側水平風門板係配置在上 述空氣送風口的上側長軸方向,一片下側水平風門板係在 上述空氣送風口的下側長軸方向延伸,複數片垂直風門板 係在上述空氣送風口的短軸方向延伸。其可進行通常安定 控制的構成特微在於,使上述上側水平風門板的任一方及 他方,裝設成可能輪流重復,在所定的縱向姿勢的保持, 及包含上述縱向姿勢的任意之縱向姿勢間的範圍之移動。 使上述下側水平風門板,保持在上述所定的縱向姿勢或其 他縱向姿勢。使上述垂直風門板,裝設成可能在任意的橫 向姿勢間的範圍移動。 本發明之一種壁掛式空調裝置的實施型態,其空調機 本體的空氣送風口具有風向變更板,上述風向變更板係包 括複數片上側水平風門板、一片下側水平風門板、及複數 片垂直風門板。其中,複數片上側水平風門板係配置在上 9376pifl.doc/015(無劃底線) 7 536607 述空氣送風口的上側長軸方向,一片下側水平風門板係在 上述空氣送風口的下側長軸方延伸’複數片垂直風門板係 在上述空氣送風口的短軸方向延伸。其可進行通常安定控 制的構成特徵在於,使上述上側水平風門板的任一方及他 方,裝設成可能輪流重復,在所定的縱向姿勢的保持,及 在包含上述縱向姿勢的任意之縱向姿勢間的範圍之順次移 動。使上述下側水平風門板,裝設成可能以與順次移動的 上述上側水平風門板同步,加以順次移動。使上述垂直風 門板,裝設成可能在任意的橫向姿勢的範圍移動。 本發明之一種壁掛式空調裝置的實施型態,其空調機 本體的空氣送風口具有風向變更板,上述風向變更板係包 括複數片上側水平風門板、一片下側水平風門板、及複數 片垂直風門板。其中,複數片上側風門板係配置在上述空 氣送風口的上側長軸方向,一片下側水平風門板係在上述 空氣送風口的下側長軸方向延伸,複數片垂直風門板係在 上述空氣送風口的短軸方向延伸。其可進行通常安定控制 的構成特徵在於’裝設成可能,使上述上側水平風門板及 上述下側水平風門板,保持在同一或相異的縱向姿勢,使 上述垂直風門板在任意的橫向姿勢間的範圍移動。 上述本發明之壁掛式空調裝置,其構成的特徵在於, 8 9376pifl.doc/015(無劃底線) 上述垂直風門板係按照空調機本體在空調室的裝設位置, 對任意的橫向姿勢間之範圍,可加以變更。 上述本發明之壁掛式空調裝置,其特徵在於,上述 垂直風門板係按照空調機本體在空調室的裝設位置,使暖 氣或冷氣導至該空調室的中央側的橫向姿勢之保持時間, 設定成比其他橫向姿勢之保持時間爲長。 上述本發明之壁掛式空調裝置,其構成的特徵在於, 在運轉開始時,可能實施起動控制,使上側水平風門板及 下側水平風門板保持在所定的縱向姿勢,使垂直風門板保 持在所定的橫向姿勢。 上述本發明之壁掛式空調裝置,其特徵在於,上述起 動控制及上述通常安定控制,係根據設定溫與實際的室溫 之偏差溫度加以切換,使從起動控制向通常安定控制的切 換偏差溫度及從通常安定控制向起動控制切換偏差溫度, 設定成爲相異。 上述本發明之壁掛式空調裝置,其空調機本體的空氣 送風口具有風向變更板,上述風向變更板係包括複數片上 側水平風門板及一片下側水平風門板。其中,複數片上側 風門板係配置在上述氣送風口的上側長軸方向,一片下側 水平風門板係在上述空氣送風口的下側長軸方向延伸。其 9376pifLdoc/015(無劃底線) 9 構成的特徵在於,上述上側水平風門板,裝設成在任意的 縱向姿勢間的範圍,互相鄰接的一方及他方,可能互以相 反方向迴轉,上述下側水平風門板,可能在比上述上側水 平風門板的迴轉範圍較狹窄的範圍迴轉。 上述本發明之壁掛式空調裝置,其構成的特徵在於, 上述上側水平風門板及上述下側水平風門板,係在各個迴 轉動作的過程,全部到達同一的縱向姿勢位置後,以同步 實行各個的迴轉動作。 上述本發明之壁掛式空調裝置,其構成的特徵在於, 上述上側水平風門板的任意的縱向姿勢間的範圍係,在暖 氣運轉時,設定在從空調機本體之垂直下方到斜下方的範 圍內;在冷氣運轉時,設定在從上述空調機本體的斜下方 到水平位置的範圍內;在運轉時,設定在從上述空調機本 體的垂直下方到水平位置的範圍內。 上述本發明之壁掛式空調裝置具有以下的作用。 藉由上側水平風門板或下側水平風門板的一個在任意 的縱向姿勢間的範圍移動,可使從空氣送風口的暖氣或冷 氣起波動導至空調室內,同時上側水平風門板或下側水平 風門板的其他一個保持在所定的縱向姿勢之關係,由此其 他一個風門板所導向的暖氣或冷氣,能使起波動吹出的暖 10 9376pifl.doc/015(無劃底線) 536607 氣或冷氣搬送到達遠方。此結果,可使暖氣或冷氣到達空 調空的各個角落,能使空調室以均勻的君以空調。 上述本發明之壁掛式空調裝置具有以下的作用。 垂直風門板係按照空調機本體在空調室的裝設位址, 對任意的橫向姿勢間之範圍,可加以變更之關係,例如, 空調機朿體裝設在空調室的右側時,位意的橫向姿勢間的 範圍移位至左側,可使暖氣或冷導至空調室的中央側。因 此,可使從空氣送風口吹出的暖氣或冷氣導至空調室的中 央側,經橫風門板可對空調室的全體實施均一的空調。 上述本發明之壁掛式空調裝置具有以下的作用。 垂直風門板係按照空調機本體在空調室的裝設位址, 使暖氣或冷氣導空調室的中央側之橫向姿勢的保持時間, 設定比其他橫向姿勢的保持時間爲長之關係,在此種情形 也可使從空氣送風口吹出的暖氣或冷氣,經橫風門板能以 均一的導至空調室的全體。 上述本發明之壁掛式空調裝置具有以下的作用。 運轉開始時,使上側水平風門板及下側水平風門板保 持在所定的縱向姿勢,使垂直風門板保持在所定的橫向姿 勢,以實施起動控制之關係,由此起動控制,在運轉開始 時,可使從空氣送風口的暖氣或冷氣以集中的導至空調室 9376pifl.doc/015(無劃底線) 的特定位置,能實施迅速的空調。 上述本發明之壁掛式空調裝置具有以下的作用。 從起動控制向通常安定控制的切換偏差溫度,及從通 常安定控制向起動控制的切換偏差溫度,設定成爲相異之 關係,可防止頻繁切換起動控制與通常安定控制的振動現 象。 上述本發明之壁掛式空調裝置具有以下的作用。 上側水平風門板係在任意的縱向姿勢間的範圍,互以 相反方向迴轉之關係,可使從空氣送風口的暖氣或冷氣起 波動’並且,下側水平風門板在比上側風門板的迴轉範圍 較狹窄的範圍迴轉之關係由此下側水平風門板導向之暖氣 或冷氣’可使由上側水平風門板起波動的暖氣或冷氣,搬 送到達遠方。此結果,可使暖氣或冷氣到達空調室的各個 角落,能使空調室以均一的加以空調。 上述本發明之壁掛式空調裝置具有以下的作用。 上側水平風門板及下側水平風門板,在各個的迴轉動 作之過程,全部在同一的縱向姿勢位置後,以同步實行各 個的迴轉動作之關係,可經常確保迴轉動作的上側水平風 門板的良好動作位置關係。 爲讓本發明的上述原理和其他目的、特徵和優點能更 12 9376pifl.doc/015(無劃底線) 明顯易懂,下文特舉較佳實施例,並配合所附圖式,作詳 細說明如下: 亂式之簡單說明 第1圖表示關於本發明的一種壁掛式空調裝置之一實 施例的空調機本體之縱斷面圖。 第2圖表示第1圖的空調機本體之斜視圖。 第3圖表示第2圖的上側水平風門板及下側水平風門 板的姿勢的控制之斜視圖。 第4圖表示第2圖的空調機本體的分解斜視圖。 第5圖表示第2圖的空調機本體之裝設例的斜視圖。 第6圖表示第2圖的上側水平風門板及下側水平風門 板之設定縱向姿勢圖。 第7A圖〜第7C圖表示第4圖的垂直風門板之設定橫 向姿勢圖。 第8圖起動控制模式及通常安定控制模式之切換時序 (timing)的說明価。 第9圖表示從第2圖的空調機吹出的暖氣之流動在空 調室的側斷面圖。 第10圖表示從第2圖的空調機吹出的冷氣之流動在 空調室的側斷面圖。 9376pifl.d〇c/015(無劃底線) 13 536607 第11A圖〜第11D圖,第11A圖及第11B圖係在空調 室的右側設置空調機本體時,表示氣流指向性的空調室之 平面圖,第11C圖及第11D圖係在空調室的右側設置空 調機本體時,表示空調室內的溫度分布之空調室的平面 圖。 圖式之標記說明= 1 空調機本體 21 空氣送風口 23 風向變更板 24 下側水平風門板 25A、25B 上側水平風門板 26 垂直風門板 41 空調室 C①〜C⑤ 橫向姿勢 R①〜R⑤ 橫向姿勢 L①〜L⑤ 橫向姿勢 I①〜I⑥縱向姿勢 H1 第一往復移動範圍 H2 第二往復移動範圍 H3 第三往復移動範圍 9376pifl.doc/015(無劃底線) 14 W1 第一往復移動範園 W2 第二往復移動範圍 W3 第三往復移動範圍 發明的較佳實施例 以下,根據圖面說明本發明的®施例1 ° 第1圖係表示關於本發明的壁掛式空調裝置的一實施 例之縱斷面圖。1係表示空調機本體’此本體1係裝設在 壁面3。此本體1內設置室內側熱交換器5及橫向流風扇 (cross-flow fan)7 〇 在此本體1的上部1A,以格柵(grille)狀形成上部吸入 口 9,在此上部1A的前緣部1B,吸入格柵11的上端11A 以未經圖示支點爲中心,用鉸鏈(hinge)連結的狀態,可使 下端11B裝設成能從本體1的前面開放自如。 在此吸入格柵11的內側,具有過濾用原料的吸入過濾 用介質(filte〇13,裝設成可昇降自如。 在空調機本體1的下面部分,形成由渦卷形部17及舌 部19所圍繞的空氣送風口 21,在此空氣送風口 21內配置 風向變更板23。此風向變更板23係由下側水平風門板24、 上側水平風門板25,及複數片的垂直風門板26所構成。 其中,一側水平風門板24係幅度狹窄,在空氣送風口 21 15 9376pifl.doc/015(無劃底線) 536607 的下側長軸方向延伸,上側水平風門板25係在空氣送風 口 21的上側長軸方向延伸,複數片的垂直風門板26係在 空氣送風口 21的短軸方向延伸。在空氣送風口 21內的最 狹窄的上流位置,裝設離子發生裝置27。 如第2圖所示,下側水平風門板24係一片幅度狹窄 的細長風門板,上側水平風板25係較下水平風門板24的 幅度爲寬,由在長軸方分割成兩片的上側水平風門板 25A、25B所構成。各風門板24、25A、25B係各以獨立 連接於直流步進馬達(stepping motor),例如,上側水平風 板25A及25B係如第3圖所示,構戊以獨音錯開位相的 狀態,向上下可能往復移動(以後詳說)。 複數片的垂直風門板26係如第4圖所示,裝設在一 片細長的金屬板(plate)34,上可回動自如,各垂直風門板 26係由拉杆(bar)32相互連結。然而,相互連結的各垂直 風門板26之中,在圖中右端的垂直風門板26A係連結於 圖示從略的直流步進馬達之驅動軸,藉由此馬達的正反迴 轉成爲可使各垂直風門板26以同步進行姿勢控制(往復運 動)的結構。 可是,空調機本體1係如第5圖所示,或裝設在室調 室41內的大略中央(空調機本體IX),或裝設在空調室31 16 9376pifl.doc/015(麵底線) 536607 內的右側(空調機本體1Y)。按照此空調機本體1的裝設位 置,垂直風門板26的往復移動之範圍,如第7A圖、第7B 圖、第7C圖所示變更爲第一往復移動範圍W1,第二往復 移動範圍W2、第三往復移動範圍W3。 總之,空調機本體1裝設空調室41的大略中央任置時, 如第7A圖所示,使垂直風門板26的第一往復移動範圍 W1四等分,在此第一往復移動範圍W1內,從空氣送風 口 21的中心向左右均等設五個橫向姿勢(P〇sition)C①、 C②、C③、c④、C⑤等。此等五個橫向姿勢C①〜C⑤係表 示氣流的方向,例如橫向姿勢C①,全部的垂直風門板26 係以同步姿勢控制成與橫向姿勢C①所示方向大略平行。 然而,全部的垂直風門板26係設成可能,在從空氣送 風口 21的中心向左右均等分開的第一往復移動範圍W1 內迴轉(swing),或者保持在各橫向姿勢C①〜C⑤之中的任 一姿勢,或在橫向姿勢C①〜C⑤之中的任意橫向姿劫間移 動。 並且,空調機本體1裝設在空調室31的右側時,如 第7B圖所示,使第一往復移動範圍W1內的右側之移動 範圍α遮蔽(mask),使此移動範圍α除外,將所剩的第二 往復移動範圍W2,加以四等分在此第二往復移動範圍W2 17 9376pifl.doc/015(無劃底線) 536607 內’斩設定橫向姿勢R①、R②、R③、R④、R⑤等。上述 移動範圍α係爲第一往復移動範圍W1的大略1/4。 然而’全部的垂直風門板26係設成可能,在第二往復 移動範圍W2內迴轉,或者保持在各橫向姿勢R①〜R⑤的 任—姿勢,或在橫向姿勢R①〜R⑤之中的任意橫向姿勢間 移動。由此,從空氣送風口 21吹出的空氣,不供給被遮 #的移動範圍α,而對空調機本體1的左方向也就是空調 室41的中央側加以供給。 並且,空調機本體1裝設在空調室41的左側時,如 第7C圖所示,使第一往復移動範圍W1的左側之移動範 圍Θ加以遮蔽,使此移動範圍yS除外,將所剩的第三往復 移動範圍W3加以四等分,在此等三往復移動範圍W3內, 新設定橫向姿勢L①、L②、L③、L④、L⑤等。上述移動 範圍点係爲第一往復移動範圍W1的大略1/4。 然而,全部的垂直風門板26係設成可能,在第三往復 移動範圍W3內迴轉,或者保持在各橫向姿勢L①〜L⑤的 任一姿勢,或在橫向姿勢L①〜L⑤之中的任意橫向姿勢間 移動。由此,從空氣送風口 21吹出的空氣,不供給被遮 蔽的移動範圍Θ,而對空調機本體1的左方向也就是空調 室41的中央側加以供給。 18 9376pifl.doc/015(無劃底線) 536607 一方面’第3圖所示上述上側水平風門板25A、25B 及一側水平風門板24等之往復移動可能的第一往復移動 範圍H1係如第6圖所示加以五等分,在此第一往復移動 範圍H1內’設定六個縱向姿勢〗①、〖②、Σ③、〗④、z⑤、工⑥ 等。上述縱向姿勢I①對空調機本體i成爲垂直下方位置 的姿勢上述縱向姿勢I⑥對空調機本體丨成爲水平姿勢。 縱向姿勢I③及I④對空調機本體丨成爲斜下方位置姿勢。 上側水平風門板25A、25B及下側水平風門板24係設 成可能’在各縱向姿勢I①〜I⑥間迴轉,或者保持在各縱向 姿勢I①〜I⑥的任一姿勢,或在縱向姿勢〗①〜〗⑥之中的任 意縱向姿勢間移動的結構。然而,此等的上側江平風門板 25A、25B.及下側水平風門板4係在暖氣運轉時,設成可 能在縱向姿勢I①〜I④間的第二往復移動範圍H2移動,在 冷氣運轉時,設成可能在縱向姿勢I③〜I⑥間的第三往復移 動範圍H3移動,在除濕(laundry)運轉時,設成可能在縱 向姿勢I①〜I⑥間的第一往復移動範圍H1移動。 且說,使用如上所述的構成的上側水平風門板25A、 25B,下側水平風門板24及垂直風門板26,對從空氣送 風口 21所吹出的暖氣或冷氣,所進行的氣流控制有自動 氣流控制及迴轉氣流控制。 19 9376pifl.doc/015(無劃底線) 536607 [A]自動氣流控制 此自動氣流控制係控制上側水平風門板25A、25B, 下側水平風門板24及垂直風門板26的控制模式(mode), 使此等的上側水平風門板25A、25B,下側水平風門板24 及垂直風門板26在各個的往復移動範圍移動或保持(停止) ’ 的動作。此自動氣流控可分爲空調裝置開始運轉時的起動 — 擯制模式,及經過起動控制後的通常安定控模式。 修 (1)通常安定控制模式 對此通常安定控制模式,在暖氣運轉、冷氣運轉、弄 乾(dry)運轉或運轉中的任何情形,垂直風門板26係,對 空調機本體1的裝設位置在空調室41的中央時,在任意 -的橫向姿勢間的範圍(例如橫向姿勢C①〜C⑤間)移動,對 , 空調機本體1的裝設位置在空調室41的右側時,在任意 的橫向姿勢間的範圍(例如橫向姿勢r①〜r⑤間)移動,對 傷 空調機本體1的裝設置在空調室41的左側時,在任意的 ~ 橫向姿勢的範圍(例如橫向姿勢L①〜L⑤間)移動。 並且,如上所述,空調機本體1裝設在空調室41的右 側或左側之情形,暖氣或冷氣運轉時,垂直風門板26使 暖氣或冷氣從空氣送風口 21導向空調室41的中央側之橫 向姿勢(裝設在右側時爲橫向姿勢r①、R②及③;裝設在 20 9376pifl.doc/015(無劃底線) 536607 左側時爲橫向姿勢L③、L④及L⑤)的保持時間,設定成比 其他姿勢的保持時間爲長。由此,向空調室41的中央側 之暖氣或冷氣的供給量增大,以使空調室41的全體能均 一的加以空調。 一方面,上側水平風門板25A及上側水平風門板25B, 在暖氣運轉(含運轉)時,係輪流重復在所定的縱向姿勢(例 如I縱向姿勢I②的保持(停止)及任意的縱向姿勢間的範圍 (例如縱向姿勢I②〜I④間)之移動。並且,下側水平風門板 24 ’在此暖氣運轉(含運轉)時,係保持(停止)在所定的縱 向姿勢(例如縱向姿勢I②)或與此所定的縱向姿勢相異的縱 向姿勢。 如此,藉由在任意的縱向姿劫間移動的上側水平風門 板25A或25B,使從空氣送風口 21吹出的暖氣起波動, 並且’由保持在所定的縱向姿勢的上側水平風門板25A、 25B或者下側水平風門板24,使上述起波動的暖氣搬送至 遠方。由此,暖氣係如第9圖所示以匍匐在地面流動。 並且,上側水平風門板25A及上側水平風門板25B, 在冷氣運轉時(含運轉),係輪流重復在所定的縱向姿勢(例 如縱向姿勢I⑥)的保持(停止)及在任意的縱向姿勢間之範 圍(例如縱向姿勢I③〜I⑥間)的順次移動(縱向姿勢I④、ί⑤、 21 9376pifl.doc/015(無劃底線) I⑥的順次移動)。下側水平風門板24,在此冷氣運轉時(含 運轉),係與如上所述順次移動的上側風門板25A或25B 同步,在同一範圍移動。 如此由在任意的縱向姿勢間順次移動的上側水平風門 板25A、25B及下側風門板24,使從空氣送風口 21吹出 的冷氣起波動,並且由保持在所定的縱向姿勢的上側水平 風門板25A、25B或者下側水平風門板24,使上述起波動 的冷氣搬送至遠方。由此,冷氣係如第10圖所示在天花 板附近搬送至遠方。 更且,在弄乾運轉時,上側水平風門板25A、25B及 下側水平風門板24,係保持(停止)在同一或相異的縱向姿 勢(例如同一的縱向姿勢I⑥)。由此,從空調機本體1的空 氣導向至空調室41的遠方。 (2)起動控制模式 在運轉開始時的起動控制模式,上側水平風門板25A、 25B及下側水平風門板24係保持在所定的縱向姿勢,例 如暖氣運轉時(含除濕運轉)保持在縱向姿勢I②,冷氣運轉 時(含運轉)及弄乾運轉時係保持在縱向姿勢I⑥。並且,垂 直風門板26係保持在使暖氣或冷氣導向至空調室41的中 央側的所定之橫向姿勢,例如在暖氣運轉時(含除濕運轉) 22 9376pifl.doc/015(無劃底線) 536607 保持在橫向姿勢C③、R②、L④,冷氣運轉時(含除濕運轉) 及弄乾運轉時,保持在橫向姿勢C③、R③、L③。如此藉 由上側水平風門板25A、25B,下側水平風門板24及垂直 風門板26保持在所定的姿勢,從空調機本體1的空氣送 風口 21,可集中的使暖氣或冷氣導向空調室41內。 · (3)控制模式的切換 , 上述起動控制模式與上述通常安定控制模式切換係依 φ 據設定室溫與實際的室溫之偏差溫度加以實施。然而,如 第8圖所示,從起動控制模式向通常安定控制模式的切換 偏差溫度及從通常安定控制模式向起動控制模式的切換偏 差溫度,設定成爲相異。 總之,如第8圖所示,從起動控制模式向通常安定控 _ 制模式切換,係在上述偏差溫度例如爲2°C時加以實施, 並且,從通常安定控制模式向起動控制模式的切換,係在 傷 偏差溫度例如爲4°C時加以實施。藉此,可防止以頻繁的 _ 切換起動控制模式與通常安定控制模式的振動現象 (chattering) 〇 實際上,從起動控制模式向通常安定控制模式的切換, 在設定室溫實際的室溫之偏差溫度變成2°C時也不音即加 以實施,從達到此2°C的時候經過所定的遮蔽(mask)時間 9376pifl.doc/015(無劃底線) 23 後再度上述偏差溫度在2°C以下時,始付諸實施。藉此, 可更加一層防止起動控制模式與通常安定控模式頻繁之振 動現象。 [B]迴轉氣流控制 此迴轉氣流控制,係控制上側水平風門板25A、25B 及一側水平風門板24的控制模式,使此等上側水平風門 板25A、25B及下側水平風門板24在第一往復移動範圍H1 內的任意之範圍不停止(保持),經常移動,即使進行迴轉 動作。 在此迴轉氣流控制,上側水平風門板25A及25B係設 成在第一往復移動範圍H1的任意之縱向姿勢的範圍丁能 以相反方向加以迴轉,並且,下側水平風門板24,係設成 在比上述上側水平風門板25A及25B的迴轉範圍較狹窄 的範圍可能加以迴轉。 總之,在暖氣運轉時,上側水平門板25A及25B,係 在縱向姿勢I①〜I④的範圍互以相互方向迴轉,下側水平風 門板24,係在縱向姿勢I①及I②的範圍迴轉。並且,在冷 氣或弄乾運轉時,上側水平風門板25A及25B,係在縱向 姿勢I③〜I⑥的範圍互以相互方向迴轉,下側水平風門板 24,係在縱向姿勢I③〜I⑤的範圍迴轉。更且,在除濕運轉 9376pifl.doc/015(無Jij 底線) 24 536607 時,上側水平風門板25A及25B,係在縱向姿勢I①〜I⑥的 範圍互以方向迴轉,下側水平風板24,係在縱向姿勢 I①〜I④的範圍迴轉。 如此藉由在廣大範圍的縱向姿勢間迴轉的上側水平風 · 門板25A及25B,使從空氣送風口 21吹出的暖氣或冷氣 ‘ 相反波動,由在狹窄範圍的縱向姿勢間迴轉的下側水平風 - 門板24所導向的暖氣或冷氣,搬送由上側水平風門板25Α φ 及25B所起波動的暖氣或冷氣到達遠方。暖氣運轉時,暖 氣係如第9圖所示以匐匍在地面流動,在冷氣或弄乾運轉 時,冷氣係如第10圖所示在天花板附近搬送至遠方。 並且,上側水平風門板25A、25B及下側水平風門板 24,係在各個的迴轉動作之過程,全部到達同一的縱向姿 勢位置後,以同步實行各個的迴轉動作。例如,在暖氣運 轉時,上側水平風門板25A,係順次移動縱向姿勢I①、I②、 · I®、I④的各姿勢,上側水平風門板25B,係順次移動縱向 ~ 姿勢I④、I③、I②、I①的各姿勢,下側水平風門板24,係 順次移動縱向姿勢I①、I②、I①的各姿勢等加以迴轉。在 此動作過程,上側水平風門板25A、25B及下側水平風門 板24,係必定同時到達同一的縱向姿勢I②,從此縱向姿 勢I②向各個的縱向姿勢移動。藉此,可經常確保上側水 25 9376pifl.doc/015(無劃底線) 536607 平風向板25A、25B及下側水平風向板24的良好動作位 置關係。 從以上的構成,依照上述實施例,可湊出以下的效果 ①〜⑧0 ① 上側水平風門板25A、25B或下側水平風門板24的 ’1 一個,在第一往復移動範圍H1的任意之縱向姿勢間的範 · 圍移動之關係,可使從空調機本體1的空氣送風口 21吹 ^ 出的暖氣或冷氣,以波動導向空調室41內,同時上述上 側水平風門板25A、25B或下側水平風門板24的其他一 個保持在第一往復移動範圍H1的所定之向姿勢的關係, 由此其他一個風門板導向的暖氣或冷氣,能使如上述以波 動吹出的暖氣或冷氣搬送到達遠方。此結果,可使暖氣或 - 冷氣到達空調室41內的各個角落,能使此空調室41內的 均一的加以空調。 0 ② 垂直風門板26,係按照空調機本體1在空調室41 的裝設位置,從第一往復移動範圍W1變更至第二往復移 動範圍W2或第三往復移動範圍W3之關係,例如,空調 機本體1裝設在空調室41的右側之情形,從第一往復移 動範圍W1向第二往復移動範圍W2,左側移位,能使暖 氣或冷氣導向至空調室41的中央側。因此,能使從空氣 26 9376pifl.doc/015(無劃底線) 536607 送風口 21吹出的暖氣或冷氣導至空調室41的中央側,經 垂直風門板26可對空調室41的全體實施均一之空調。 ③ 垂直風門板26,在空調機本體i裝設在空調室41 的右側或左側時,係按照此裝設位置使暖氣或冷氣導至該 空調室41的中央側之橫向姿勢的保持時間,設定比其他 £ 橫向姿勢的保持時間爲長之關係,在此種情形也可使從空 - 調機本體1的空氣送風口 21吹出之暖氣或冷氣經垂直風 _ 門板26,能以均一的導至空調室41的全體。 ④ 此等①〜③的結果,例如第1圖所示空調機本體1裝 設在空調室41的右側時,從空調機本體丨的空氣送風口 21 吹出的暖氣或冷氣的氣流之中心X,係不像第7A圖所示 — 位置在空調室41的大略中央。並且,從空氣送風口 21吹 出的暖氣或冷氣在空調室41內形成的溫度坡度,係不像 如第7C圖所示的從來例以急劇的變化,而如圖7D所示 摩| 以緩慢的變化。 ⑤ 在自動氣流控制,空調裝置的運轉開始時,實施上 側水平風門板25A、25B及下側水平風門板24保持在所 定的縱向姿勢,垂直風門板26保持在所定的橫向姿勢的 起動控制模式之關係,由此啓動控制模式,在運轉開始時, 可使從空調機本體1的空氣送風口 21吹出的暖氣或冷氣 27 9376pifl.doc/015(細底線) 以集中的導至空調室41的特定位置,能實施迅速的空調。 ⑥ 在自動氣流控制,從起動控制模式向通常安定控制 模式的切換偏差溫度,及從通常安定控制模式向起動控制 模式的切換偏差溫度設定爲相異之關係,可防止頻繁切換 “ 起動模式與通常安定控制模式的振動現象。 胃' ⑦ 在迴轉氣流控制,上側水平風門板25A及25B,在 · 任意的縱向姿勢間之範圍,互以相反方向迴轉之關係,可 _ 使從空調機本體1的空氣送風口 21的暖氣或冷氣起波動, 並且,下側水平風門板24,係在比上側風門板25A及25B 的迴轉範圍狹窄迴轉之關係,由此下側水平風門板24導 向之暖氣或冷氣,可使由上側風門板25A及25B起波動 的暖氣或冷氣,搬送到達遠方。此結果,可使暖氣或冷氣 _ 到達空調室41內的各個角落,能使空調室41內以均一的 加以空調。 擎 ⑧ 在迴轉氣流控制,在上側水平風門板25A及25B, ^ 在各個動作的過程,全部在同一的縱向姿勢位置後,以同 步實行各個的迴轉動作之關係,可經常確保迴轉動作的上 側水平風門板25A及25B的良好動作位置關係。 以上,依照上述實施例說明本發明,本發明並非限定 在此實施例。 28 9376pifl.doc/015(無劃底線) 536607 發明之效果 如以上所述,依照關於本發明的一種壁掛式空調裝置, 可使暖氣或冷氣到達空調室的各個角落,能使空調室內以 均一的加以空調。For example, during air-conditioning operation, control is made to blow the airflow horizontally to increase the reach of the airflow, and for air-conditioning operation, control is made to blow airflow vertically downward to form a control along the ground. The problem that the spirit friend wants to solve. However, the conventional structure composed of two horizontal damper plates and multiple vertical damper plates is very difficult to make the heating or cooling air reach uniformly during heating operation or air-conditioning operation. Every corner of the air-conditioned room. The object of the present invention is to provide a wall-mounted air-conditioning device. Considering the above-mentioned 9376pifl.doc / 015 (Na J bottom line) 6 536607 problem ′, the heating or cooling air can reach every corner of the air-conditioning room, and the air-conditioning room can be evenly air-conditioned. Solve the problem of the problem of high-performance wall-mounted air conditioner according to the present invention, the air outlet of the air conditioner body has a wind direction changing plate, and the wind direction changing leather system includes a plurality of upper horizontal damper plates. A lower horizontal damper panel and a plurality of vertical damper panels. Among them, a plurality of upper horizontal damper plates are arranged in the upper long axis direction of the air supply opening, a lower horizontal damper plate extends in the lower long axis direction of the air supply opening, and a plurality of vertical damper plates are connected in the air. The air vent extends in the short axis direction. The structure capable of performing normal stability control is that any one of the upper horizontal damper plates and the other are installed so that they can alternate in turn, between maintaining the predetermined vertical posture, and between any of the vertical postures including the vertical posture. Range of movement. The lower horizontal damper panel is maintained in the predetermined vertical posture or another vertical posture. The vertical damper plate is installed so as to be movable within a range between arbitrary lateral attitudes. An embodiment of the present invention provides a wall-mounted air conditioner. The air outlet of the air conditioner has a wind direction changing plate. The wind direction changing plate includes a plurality of upper horizontal damper plates, a lower horizontal damper plate, and a plurality of vertical Damper plate. Among them, a plurality of upper horizontal damper plates are arranged on the upper 9376pifl.doc / 015 (without underline) 7 536607. The upper long axis direction of the air outlet is described above, and a lower horizontal damper plate is long on the lower side of the air supply outlet. Axial extension 'A plurality of vertical damper plates extend in the short-axis direction of the air supply vent. The structure capable of performing normal stability control is characterized in that any one of the upper horizontal damper plates and the other are installed so that they can alternate in turn, maintain a predetermined vertical posture, and between any of the vertical postures including the vertical posture. The range of the order moves. The lower horizontal damper panel is arranged to move sequentially in synchronization with the upper horizontal damper panel which is sequentially moved. The vertical damper plate is installed so as to be movable in a range of an arbitrary lateral posture. An embodiment of the present invention provides a wall-mounted air conditioner. The air outlet of the air conditioner has a wind direction changing plate. The wind direction changing plate includes a plurality of upper horizontal damper plates, a lower horizontal damper plate, and a plurality of vertical Damper plate. Among them, a plurality of upper damper plates are arranged in the upper long axis direction of the air supply opening, a lower horizontal damper plate extends in the lower long axis direction of the air supply opening, and a plurality of vertical damper plates are arranged in the air supply air. The minor axis of the mouth extends. The structure capable of performing normal stability control is characterized by 'installation is possible so that the upper horizontal damper panel and the lower horizontal damper panel are maintained in the same or different vertical postures, and the vertical damper panel is in an arbitrary lateral posture Move between ranges. The above-mentioned wall-mounted air conditioner of the present invention is characterized in that 8 9376pifl.doc / 015 (without underline) The vertical damper panel is arranged in accordance with the installation position of the air conditioner body in the air-conditioning room, and between any horizontal postures. Scope can be changed. The wall-mounted air conditioner of the present invention is characterized in that the vertical damper plate is set according to the installation position of the main body of the air conditioner in the air conditioner room, so that the heating or cooling air is guided to the lateral position of the central side of the air conditioner. It is longer than other lateral postures. The wall-mounted air conditioner of the present invention described above is characterized in that at the start of operation, it may be possible to implement start control to keep the upper horizontal damper plate and the lower horizontal damper plate in a predetermined vertical posture and keep the vertical damper plate at a predetermined Horizontal pose. The wall-mounted air conditioner of the present invention described above is characterized in that the starting control and the normal stabilization control are switched according to the deviation temperature between the set temperature and the actual room temperature, so that the deviation temperature and The deviation temperature is switched from the normal stabilization control to the start control, and the settings are different. In the wall-mounted air conditioner of the present invention, the air outlet of the air conditioner body has a wind direction changing plate, and the wind direction changing plate includes a plurality of upper horizontal damper plates and a lower horizontal damper plate. Among them, a plurality of upper damper plates are arranged in the direction of the upper long axis of the air supply vent, and a lower horizontal damper plate is extended in the direction of the lower long axis of the air supply vent. Its 9376pifLdoc / 015 (without underline) 9 is characterized in that the upper horizontal damper plate is installed in a range between any vertical postures, and one and the other adjacent to each other may rotate in opposite directions, and the lower side The horizontal flap may turn in a narrower range than the swing range of the upper horizontal flap. The wall-mounted air conditioner of the present invention described above is characterized in that the upper horizontal damper plate and the lower horizontal damper plate are in the process of each turning operation and all reach the same vertical posture position, and the respective Swing action. The wall-mounted air conditioner of the present invention described above is characterized in that a range between any of the vertical postures of the upper horizontal damper plate is set in a range from a vertical downward direction to an oblique downward direction of the air conditioner body during heating operation. During the air-conditioning operation, it is set within the range from the obliquely lower part of the air conditioner body to the horizontal position; during the operation, it is set within the range from the vertically lower part of the air conditioner body to the horizontal position. The wall-mounted air conditioner of the present invention described above has the following effects. By moving one of the upper horizontal damper panel or the lower horizontal damper panel in an arbitrary vertical posture, the fluctuations from the heating or cooling of the air outlet can be guided to the air-conditioning room, while the upper horizontal damper panel or the lower horizontal level The other one of the damper panels is maintained in a predetermined longitudinal posture, so that the heating or cooling air guided by the other damper panel can make the wave blown warm. 9 9376pifl.doc / 015 (Unlined) 536607 Air or cold air transport Reach into the distance. As a result, the heating or cooling air can reach all corners of the air-conditioning, and the air-conditioning room can be uniformly air-conditioned. The wall-mounted air conditioner of the present invention described above has the following effects. The vertical damper panel can be changed according to the installation location of the air conditioner body in the air conditioning room. For example, when the air conditioner body is installed on the right side of the air conditioner room, The range between the lateral postures is shifted to the left, so that heating or cooling can be conducted to the central side of the air-conditioned room. Therefore, the heating or cooling air blown from the air outlet can be guided to the central side of the air-conditioning room, and the entire air-conditioning room can be uniformly air-conditioned through the cross air door panel. The wall-mounted air conditioner of the present invention described above has the following effects. The vertical damper panel is based on the installation location of the air conditioner body in the air-conditioning room, so that the holding time of the lateral posture of the central side of the heating or cooling air-conditioning air-conditioning room is set to be longer than the holding time of other lateral postures. In some cases, the heating or cooling air blown from the air outlet can be uniformly guided to the entire air-conditioning room through the crosswind door panel. The wall-mounted air conditioner of the present invention described above has the following effects. At the beginning of the operation, the upper horizontal damper panel and the lower horizontal damper panel are maintained in a predetermined vertical posture, and the vertical damper panel is maintained in a predetermined horizontal posture, so as to implement the relationship of the start control, thereby starting the control. At the beginning of the operation, The heating or cooling from the air outlet can be concentratedly guided to a specific position in the air-conditioning room 9376pifl.doc / 015 (without underline), and rapid air-conditioning can be implemented. The wall-mounted air conditioner of the present invention described above has the following effects. The switching deviation temperature from the starting control to the normal stabilization control and the switching deviation temperature from the normal stabilization control to the starting control are set to have different relations, which can prevent frequent switching between the starting control and the normal stabilization control. The wall-mounted air conditioner of the present invention described above has the following effects. The upper horizontal damper plate is in a range between any vertical postures, and the relationship of rotation in opposite directions can make the heating or cooling of the air outlet fluctuate. Also, the lower horizontal damper plate has a swivel range than the upper damper plate. The relationship between the narrow range of rotation and the heating or cooling air guided by the lower horizontal damper panel allows the heating or cooling air fluctuated from the upper horizontal damper panel to be transported to a distance. As a result, heating or cooling can be made to reach all corners of the air-conditioned room, and the air-conditioned room can be air-conditioned uniformly. The wall-mounted air conditioner of the present invention described above has the following effects. The upper horizontal damper plate and the lower horizontal damper plate are in the same vertical posture during the course of each turning action, and the relationship of the respective turning actions is synchronized to ensure the good quality of the upper horizontal damper board in the turning action. Action position relationship. In order to make the above principles and other objects, features, and advantages of the present invention more obvious and understandable, 9376pifl.doc / 015 (without underlined), the preferred embodiments are described below in conjunction with the accompanying drawings for detailed description as follows : Simple description of random type FIG. 1 is a longitudinal sectional view of an air conditioner body according to an embodiment of a wall-mounted air conditioner according to the present invention. Fig. 2 is a perspective view of the air conditioner body of Fig. 1. Fig. 3 is a perspective view showing the attitude control of the upper horizontal damper panel and the lower horizontal damper panel in Fig. 2; Fig. 4 is an exploded perspective view of the air conditioner body of Fig. 2. Fig. 5 is a perspective view showing an installation example of the air conditioner body shown in Fig. 2. Fig. 6 is a longitudinal posture view of the upper horizontal damper panel and the lower horizontal damper panel in Fig. 2; Figs. 7A to 7C show the setting lateral postures of the vertical damper plate of Fig. 4. Figs. Fig. 8 illustrates the switching timing of the start control mode and the normal stable control mode. Fig. 9 is a side cross-sectional view showing the flow of heating air blown from the air conditioner in Fig. 2 in the air-conditioning room. Fig. 10 is a side sectional view showing the flow of cold air blown from the air conditioner of Fig. 2 in the air conditioning room. 9376pifl.d〇c / 015 (Unlined) 13 536607 Figures 11A to 11D, 11A, and 11B are plan views of the air-conditioning room showing airflow directivity when the air-conditioning unit is installed on the right side of the air-conditioning room. 11C and 11D are plan views of the air-conditioning room showing the temperature distribution in the air-conditioning room when the air-conditioning machine body is installed on the right side of the air-conditioning room. Explanation of the marks in the figure = 1 Air conditioner body 21 Air outlet 23 Air direction changing plate 24 Lower horizontal damper plates 25A, 25B Upper horizontal damper plate 26 Vertical damper plate 41 Air-conditioning room C① ~ C⑤ Lateral posture R① ~ R⑤ Lateral posture L① ~ L⑤ Lateral posture I① ~ I⑥ Longitudinal posture H1 First reciprocating range H2 Second reciprocating range H3 Third reciprocating range 9376pifl.doc / 015 (Unlined) 14 W1 First reciprocating range W2 Second reciprocating range W3 Preferred Embodiment of the Third Reciprocating Range Invention The following will explain the ® embodiment 1 ° of the present invention with reference to the drawings. The first diagram is a longitudinal sectional view showing an embodiment of the wall-mounted air conditioner according to the present invention. 1 is an air conditioner body. This body 1 is mounted on a wall surface 3. An indoor-side heat exchanger 5 and a cross-flow fan 7 are provided in the main body 1. An upper suction port 9 is formed in a grille shape on the upper part 1A of the main body 1. In the edge portion 1B, the upper end 11A of the suction grille 11 is centered on a fulcrum (not shown) and is hinged, so that the lower end 11B can be installed freely from the front of the main body 1. Inside the suction grille 11, a suction filtering medium (filte03) for filtering raw materials is installed so as to be able to be raised and lowered. A scroll portion 17 and a tongue portion 19 are formed on a lower portion of the air conditioner body 1. The surrounding air supply port 21 is provided with a wind direction changing plate 23. The air direction changing plate 23 is composed of a lower horizontal damper plate 24, an upper horizontal damper plate 25, and a plurality of vertical damper plates 26. Among them, the horizontal damper plate 24 on one side is narrow in width and extends in the lower long axis direction of the air supply opening 21 15 9376pifl.doc / 015 (without underline) 536607, and the upper horizontal damper plate 25 is connected to the air supply opening 21 Extending in the long axis direction of the upper side, a plurality of vertical damper plates 26 extend in the short axis direction of the air supply opening 21. An ion generating device 27 is installed at the narrowest upstream position in the air supply opening 21. As shown in FIG. 2 As shown, the lower horizontal damper plate 24 is a narrow and narrow damper plate, and the upper horizontal damper plate 25 is wider than the lower horizontal damper plate 24. The upper horizontal damper plate 25A is divided into two pieces on the long axis side. , 25 B. Each damper plate 24, 25A, 25B is independently connected to a DC stepping motor. For example, the upper horizontal dampers 25A and 25B are shown in Figure 3. The state of the phase may reciprocate upwards and downwards (more on this later). As shown in Fig. 4, a plurality of vertical damper plates 26 are installed on an elongated metal plate 34, which can be rotated freely. The vertical damper plates 26 are connected to each other by a bar 32. However, among the vertical damper plates 26 connected to each other, the vertical damper plate 26A at the right end in the figure is connected to the drive of a DC stepping motor (not shown). The shaft is rotated by the forward and reverse rotation of the motor so that the vertical damper plates 26 can be synchronized for attitude control (reciprocating movement). However, the air conditioner body 1 is shown in Fig. 5 or installed in a room. Approximately central (air conditioner body IX) in room 41, or installed on the right side (air conditioner body 1Y) in air conditioner room 31 16 9376pifl.doc / 015 (bottom line) 536607. According to the installation of this air conditioner body 1 Position, the range of the reciprocating movement of the vertical damper plate 26, as shown in FIG. 7A Figures 7B and 7C are changed to the first reciprocating range W1, the second reciprocating range W2, and the third reciprocating range W3. In short, when the air conditioner body 1 is installed at the roughly central position of the air conditioning room 41, As shown in FIG. 7A, the first reciprocating range W1 of the vertical damper plate 26 is divided into four equal parts, and within this first reciprocating range W1, five lateral postures (P 〇sition) C①, C②, C③, c④, C⑤, etc. These five lateral postures C① ~ C⑤ represent the direction of air flow, such as lateral posture C①, and all the vertical damper plates 26 are controlled in a synchronized posture to the lateral posture C① The directions shown are roughly parallel. However, all the vertical damper plates 26 are made possible to swing within the first reciprocating movement range W1 which is evenly spaced from the center of the air supply opening 21 to the left or right, or to be maintained in each of the lateral postures C① to C⑤. Move in any of the postures, or in any of the lateral postures C① ~ C⑤. In addition, when the air conditioner body 1 is installed on the right side of the air-conditioning room 31, as shown in FIG. 7B, the right side movement range α within the first reciprocating movement range W1 is masked, and this movement range α is excluded. The remaining second reciprocating movement range W2 is divided into four equal parts. In this second reciprocating movement range W2 17 9376pifl.doc / 015 (without underline) 536607 'Cut the set lateral postures R①, R②, R③, R④, R⑤, etc. . The aforementioned moving range α is approximately 1/4 of the first reciprocating moving range W1. However, 'the entire vertical damper plate 26 is set to be possible to rotate within the second reciprocating range W2, or to maintain any of the lateral postures R① ~ R⑤, or any lateral posture among the lateral postures R① ~ R⑤. Between moves. As a result, the air blown from the air supply port 21 is not supplied to the moving range α of the covered #, and is supplied to the left side of the air conditioner body 1, that is, the central side of the air conditioning room 41. When the air conditioner body 1 is installed on the left side of the air conditioning room 41, as shown in FIG. 7C, the movement range Θ on the left side of the first reciprocating movement range W1 is masked, and the movement range yS is excluded, and the remaining The third reciprocating movement range W3 is divided into four equal parts. Within these three reciprocating movement ranges W3, the lateral attitudes L①, L②, L③, L④, L⑤, etc. are newly set. The aforementioned moving range point is approximately 1/4 of the first reciprocating moving range W1. However, all the vertical damper plates 26 are set to be possible to rotate within the third reciprocating movement range W3, or to maintain any of the lateral postures L① to L⑤, or any lateral posture among the lateral postures L① to L⑤. Between moves. As a result, the air blown from the air outlet 21 is not supplied to the covered movement range Θ, and is supplied to the left side of the air conditioner body 1, that is, the central side of the air conditioning room 41. 18 9376pifl.doc / 015 (without underline) 536607 On the one hand, the first possible reciprocating range H1 of reciprocating movement of the upper horizontal damper plates 25A, 25B and one horizontal damper plate 24 shown in FIG. 3 is as shown in FIG. Add five equal parts as shown in Figure 6, and set six vertical postures in this first reciprocating range H1: ①, ②, Σ③, ④, z⑤, and work ⑥. The vertical posture I① is a posture in which the air conditioner body i is vertically lowered, and the vertical posture I⑥ is in a horizontal posture with respect to the air conditioner body 丨. The longitudinal postures I③ and I④ are inclined obliquely downward to the air conditioner body. The upper horizontal damper plates 25A and 25B and the lower horizontal damper plate 24 are provided so as to be capable of 'turning between each longitudinal posture I① ~ I⑥, or maintaining any one of each longitudinal posture I① ~ I⑥, or in a longitudinal posture〗 ① ~ 〖⑥The structure of moving between any longitudinal poses. However, these upper Jiangping damper panels 25A and 25B. And the lower horizontal damper panel 4 are set to move in the second reciprocating range H2 between the longitudinal postures I① to I④ during heating operation. During air-conditioning operation, It is assumed that it is possible to move in the third reciprocating movement range H3 between the longitudinal attitudes I③ to I⑥, and it is possible to move in the first reciprocating movement range H1 between the longitudinal attitudes I① to I⑥ during the dehumidification operation. Furthermore, the upper horizontal damper plates 25A and 25B, the lower horizontal damper plate 24 and the vertical damper plate 26 configured as described above are used to control the airflow of the heating or cooling air blown from the air supply opening 21 with automatic airflow. Control and rotary airflow control. 19 9376pifl.doc / 015 (without underline) 536607 [A] Automatic airflow control This automatic airflow control system controls the mode of the upper horizontal flaps 25A, 25B, the lower horizontal flaps 24 and the vertical flaps 26, These upper horizontal damper plates 25A and 25B, the lower horizontal damper plate 24 and the vertical damper plate 26 are moved or held (stopped) in each of the reciprocating movement ranges. This automatic airflow control can be divided into the start-up control mode when the air conditioner starts to run, and the normal stability control mode after the start control. (1) Normal stability control mode. In this situation, in normal operation of heating operation, air-conditioning operation, dry operation, or operation, the vertical damper plate 26 is installed on the air conditioner body 1 When it is in the center of the air-conditioning room 41, it moves in a range of arbitrary horizontal positions (for example, horizontal positions C① ~ C⑤). Yes, when the installation position of the air conditioner body 1 is on the right side of the air-conditioning room 41, it is in an arbitrary horizontal position. The range between the postures (for example, the lateral postures r① to r⑤) is moved. When the injury air conditioner body 1 is installed on the left side of the air-conditioning room 41, it moves in the range of any ~ lateral postures (for example, the lateral postures L① to L⑤). . In addition, as described above, when the air conditioner body 1 is installed on the right or left side of the air conditioning room 41, the vertical damper plate 26 guides the heating or cooling air from the air supply port 21 to the central side of the air conditioning room 41 during heating or cooling operation. Lateral posture (horizontal postures r①, R②, and ③ when installed on the right; 20 9376pifl.doc / 015 (without underline) 536607 lateral postures when installed on the left: L③, L④, and L⑤), set the ratio The hold time for other postures is long. This increases the amount of heating or cooling air supplied to the center of the air-conditioning room 41, so that the entire air-conditioning room 41 can be air-conditioned uniformly. On the one hand, the upper horizontal damper plate 25A and the upper horizontal damper plate 25B repeatedly alternate between a predetermined vertical posture (for example, holding (stopping) of the vertical posture I② and any vertical posture) during heating operation (including operation). Range (e.g., between vertical postures I② to I④). Moreover, the lower horizontal damper plate 24 'is maintained (stopped) in a predetermined vertical posture (for example, vertical posture I②) during the heating operation (including operation) or with This predetermined vertical posture is different from the vertical posture. In this way, the upper horizontal damper plate 25A or 25B that moves between any of the vertical postures causes the heating air blown from the air supply port 21 to fluctuate, and The upper horizontal damper plates 25A, 25B or the lower horizontal damper plate 24 in the vertical posture allow the wavy heating to be transported to a distance. As a result, the heating system flows on the ground as shown in Fig. 9. Furthermore, the upper side is horizontal. The damper plate 25A and the upper horizontal damper plate 25B are alternately maintained in a predetermined vertical posture (for example, vertical posture I⑥) during air-conditioning operation (including operation) ( Stop) and sequential movements within any range of vertical poses (for example, between vertical poses I③ to I⑥) (vertical poses I④, ί⑤, 21 9376pifl.doc / 015 (without underline) I⑥ sequential movements). Lower horizontal During the air-conditioning operation (including operation), the damper plate 24 moves in the same range as the upper damper plate 25A or 25B that moves sequentially as described above. Thus, the upper horizontal damper plate that sequentially moves between any vertical postures 25A, 25B and the lower damper plate 24 fluctuate the cold air blown from the air supply opening 21, and the upper damper plate 25A, 25B or the lower horizontal damper plate 24 maintained in a predetermined vertical posture makes the above fluctuation The air conditioner is transported to a distance. As a result, the air conditioner is transported to a distance near the ceiling as shown in Fig. 10. Furthermore, the upper horizontal damper plates 25A, 25B and the lower horizontal damper plate 24 are maintained during drying operation. (Stop) in the same or different vertical postures (for example, the same vertical posture I⑥). As a result, the air from the air conditioner body 1 is directed to a distance from the air conditioning room 41. (2) The start control mode is In the start control mode at the start of turning, the upper horizontal damper plates 25A, 25B and the lower horizontal damper plate 24 are maintained in a predetermined vertical posture. For example, during heating operation (including dehumidification operation), the vertical posture I② is maintained, and during air-conditioning operation (including The vertical damper plate 26 is maintained in a predetermined horizontal posture that directs heating or cooling to the center of the air-conditioning room 41, such as during heating operation (including dehumidification operation). ) 22 9376pifl.doc / 015 (without underline) 536607 Keep the lateral postures C③, R②, and L④. During air-conditioning operation (including dehumidification operation) and dry operation, keep the lateral postures C③, R③, and L③. In this way, the upper horizontal damper plates 25A and 25B, the lower horizontal damper plate 24 and the vertical damper plate 26 are maintained in a predetermined posture, and the heating or cooling air can be directed to the air-conditioning room 41 from the air outlet 21 of the air conditioner body 1. Inside. · (3) Switching of control mode. The above-mentioned start control mode and the above-mentioned normal stable control mode are switched according to the difference between the set room temperature and the actual room temperature. However, as shown in FIG. 8, the deviation temperature for switching from the start control mode to the normal stabilization control mode and the deviation temperature for switching from the normal stabilization control mode to the startup control mode are set differently. In short, as shown in Fig. 8, switching from the start control mode to the normal stabilization control mode is performed when the above-mentioned deviation temperature is, for example, 2 ° C, and the switching from the normal stabilization control mode to the start control mode is performed. It is implemented when the damage deviation temperature is, for example, 4 ° C. This can prevent chattering when switching the start control mode and the normal stable control mode with frequent _. Actually, switching from the start control mode to the normal stable control mode causes the actual room temperature deviation from being set at room temperature. When the temperature becomes 2 ° C, it will be implemented without sound. After reaching the 2 ° C, a predetermined mask time 9376pifl.doc / 015 (without underline) 23 will be used and the deviation temperature will be below 2 ° C. At the beginning, put into practice. With this, it is possible to further prevent the frequent vibration phenomenon in the start control mode and the normal stability control mode. [B] Rotary airflow control This rotary airflow control is a control mode that controls the upper horizontal flaps 25A, 25B and the horizontal flaps 24, so that the upper horizontal flaps 25A, 25B and the lower horizontal flaps 24 An arbitrary range within the reciprocating movement range H1 does not stop (hold) and moves frequently, even when performing a turning action. In this slewing airflow control, the upper horizontal damper plates 25A and 25B are set in a range of an arbitrary longitudinal posture of the first reciprocating movement range H1. The lower horizontal damper plates 24 are set to It is possible to swing in a narrower range than the swing range of the upper horizontal damper plates 25A and 25B. In short, during heating operation, the upper horizontal door panels 25A and 25B are rotated in the direction of each other in the range of the longitudinal postures I① to I④, and the lower horizontal door panels 24 are rotated in the range of the longitudinal postures I① and I②. In addition, during air-conditioning or dry operation, the upper horizontal flaps 25A and 25B are rotated in the direction of each other in the range of the vertical postures I③ to I⑥, and the lower horizontal flaps 24 are rotated in the range of the vertical postures I③ to I⑤. . Furthermore, during dehumidification operation 9376pifl.doc / 015 (without Jij bottom line) 24 536607, the upper horizontal flaps 25A and 25B are rotated in the direction of each other in the range of the longitudinal postures I① ~ I⑥, and the lower horizontal flaps 24, Turn in the range of the vertical postures I① ~ I④. In this way, the upper horizontal wind and door panels 25A and 25B swiveling between a wide range of vertical postures cause the heating or cooling air from the air outlet 21 to fluctuate in opposite directions, and the lower horizontal wind swiveling between a narrow range of vertical postures. -The heating or cooling air guided by the door panel 24 carries the heating or cooling air fluctuated from the upper horizontal flaps 25A φ and 25B to a distance. During heating operation, the heating system flows through the floor as shown in Figure 9; during cooling or drying operation, the cooling system is transported near the ceiling as shown in Figure 10 to a distance. In addition, the upper horizontal damper plates 25A and 25B and the lower horizontal damper plate 24 are in the course of each turning operation, and after all reaching the same vertical posture position, the turning operations are performed simultaneously. For example, during heating operation, the upper horizontal damper plate 25A moves sequentially in each of the vertical postures I①, I②, · I®, I④, and the upper horizontal damper plate 25B moves sequentially in the vertical to postures I ~ 4, I③, I②, I① In each of the postures, the lower horizontal damper plate 24 is sequentially rotated in the postures of the vertical postures I①, I②, I①, and the like. During this operation, the upper horizontal damper plates 25A, 25B and the lower horizontal damper plate 24 must reach the same vertical posture I② at the same time, and from this vertical posture I②, they move to each vertical posture. In this way, it is possible to always ensure the good positional relationship of the upper water 25 9376pifl.doc / 015 (without underline) 536607 flat wind direction boards 25A, 25B and the lower horizontal wind direction board 24. From the above configuration, according to the above embodiment, the following effects can be achieved ① ~ ⑧0 ① One of the upper horizontal damper plates 25A, 25B or the lower horizontal damper plate 24 is in any longitudinal direction in the first reciprocating range H1 The relationship between the posture and the surrounding movement allows the heating or cooling air blown from the air outlet 21 of the air conditioner body 1 to be guided to the air conditioning room 41 in a wave, and the upper horizontal damper plates 25A, 25B, or the lower side The other one of the horizontal damper panels 24 is maintained in the predetermined orientation of the first reciprocating movement range H1, so that the heating or cooling air guided by the other damper panel can move the heating or cooling air blown out as described above to a distance. As a result, heating or cooling can be made to reach all corners in the air-conditioning room 41, and the air-conditioning in the air-conditioning room 41 can be uniformly air-conditioned. 0 ② The vertical damper plate 26 is changed from the first reciprocating range W1 to the second reciprocating range W2 or the third reciprocating range W3 according to the installation position of the air conditioner body 1 in the air-conditioning room 41. For example, air conditioners When the machine body 1 is installed on the right side of the air-conditioning room 41, the left side is shifted from the first reciprocating range W1 to the second reciprocating range W2, and the heating or cooling can be guided to the central side of the air-conditioning room 41. Therefore, the air 26 9376pifl.doc / 015 (without underline) 536607 can be used to direct the heating or cooling air from the air outlet 21 to the central side of the air-conditioning room 41, and the entire air-conditioning room 41 can be uniformly implemented through the vertical damper plate 26. air conditioning. ③ When the air conditioner main body i is installed on the right or left side of the air-conditioning room 41, the vertical damper plate 26 is set according to this installation position to maintain the lateral posture of the central side of the air-conditioning room 41 to maintain the holding time. Compared with other £, the maintaining time of the horizontal posture is longer. In this case, the heating or cooling air blown from the air supply port 21 of the air-conditioning unit 1 can be passed through the vertical wind _ door panel 26 to be uniformly guided to The entire air-conditioned room 41. ④ As a result of these ① ~ ③, for example, when the air conditioner body 1 shown in FIG. 1 is installed on the right side of the air conditioner room 41, the center X of the airflow of heating or cooling air blown from the air supply port 21 of the air conditioner body 丨The system is not like the one shown in FIG. 7A-it is located approximately at the center of the air-conditioning room 41. In addition, the temperature gradient formed by the heating or cooling air blown out from the air supply port 21 in the air-conditioning room 41 does not change sharply like the conventional example shown in FIG. 7C, but as shown in FIG. 7D | Variety. ⑤ When the automatic air flow control and the operation of the air conditioner are started, the upper horizontal damper panels 25A, 25B and the lower horizontal damper panel 24 are maintained in a predetermined longitudinal posture, and the vertical damper panel 26 is maintained in a predetermined lateral posture. The control mode is thus activated. At the start of the operation, the heating or cooling air blown out from the air outlet 21 of the air conditioner body 1 27 9376pifl.doc / 015 (thin bottom line) can be directed to the specific of the air-conditioning room 41 Location and can implement rapid air-conditioning. ⑥ In the automatic air flow control, the switching deviation temperature from the starting control mode to the normal stabilization control mode and the switching deviation temperature from the normal stabilization control mode to the starting control mode are set to be different, which can prevent frequent switching between the "starting mode and normal Vibration phenomenon of stable control mode. Stomach '⑦ In the swing airflow control, the upper horizontal flaps 25A and 25B, in a range between any of the vertical postures, are rotated in opposite directions to each other. The heating or cooling of the air supply opening 21 fluctuates, and the lower horizontal damper plate 24 is rotated in a narrower range than the swing range of the upper damper plates 25A and 25B. Therefore, the heating or cooling by the lower horizontal damper plate 24 is directed. , Can make the heating or cooling air fluctuated from the upper air flaps 25A and 25B to the far distance. As a result, the heating or cooling air can reach all corners in the air-conditioning room 41, and the air-conditioning room 41 can be uniformly air-conditioned. The engine is in the control of slewing airflow, the horizontal flaps 25A and 25B on the upper side, ^ in the course of each action, all in the same After the posture positions are performed, the relationship of the respective turning actions is performed synchronously, which can always ensure a good action position relationship of the upper horizontal damper plates 25A and 25B of the turning action. In the foregoing, the present invention has been described in accordance with the above embodiments, but the present invention is not limited thereto. Example: 28 9376pifl.doc / 015 (without underline) 536607 Effect of the invention As described above, according to a wall-mounted air conditioner according to the present invention, heating or cooling can reach all corners of an air-conditioning room, which can make the air-conditioning room Air conditioning with uniformity.