JP3854566B2 - Low noise indoor fan - Google Patents

Description

【００３９】
【表２】

【００４０】
【表３】

【００４１】
また、比較例として表４はモータへの定格電源電圧が直流１２Ｖ、１０Ｖ、８Ｖと変化させて駆動される特許文献１に示すような従来の送風機を天井面から床面までの天井高さが２,７００ｍｍの室内の天井面に取付た場合に、空調機を３０°Ｃの設定温度にて運転して暖房を行い、暖気を天井面付近に滞留させてから、送風機の吐出口から吐出される室内空気の到達個所毎の風速測定と、騒音測定を行った結果、[表４],[表５] ,[表６]を得た。
【００４２】
【表４】

【００４３】
このうち、[表４]は、モータへの定格電源電圧が直流１２Ｖ、１０Ｖ、８Ｖに変化することにより駆動される特許文献１の送風機について、送風機の送風筒の吐出口から吐出される室内空気の初速、および天井面から直下１ｍの個所、また直下１．７ｍ離れた個所、さらに床面の直上５ｃｍ離れた個所のそれぞれの風速測定したものをまとめたものである。
【００４４】
【表５】

【００４５】
また[表５]は、天井面から直下１ｍ離れた位置において床面に対し水平に１５ｃｍ離れた個所、また、直下１．７ｍ離れた位置において床面に対し水平に３０ｃｍ離れた個所、床面上５ｃｍの位置での床面に対し水平に４０ｃｍ離れた個所の風速を測定してまとめたものである。
用いた風速測定機としては、本実施形態と同様に例えば日本カノマックス社製の型式ＭＯＤＥＬ ６５１１の風速・温湿度計を用いて測定した。
【００４６】
【表６】

また[表６]は、モータへの印加電圧を直流１２Ｖ、１０Ｖ、８Ｖに変化して駆動される特許文献１に示すような従来の送風機について直下１ｍの位置での騒音を測定したものをまとめたものである。
用いた騒音測定機器としては、本実施形態と同様に日置電機株式会社製の型式３４３０のデジタル騒音計を用いた。
【００４７】
こうして、例えば高速回転のモータＭにより羽根体１１が回転駆動される低騒音型の遠心ファン４を使用した本実施形態の送風機ユニット１と、例えば特許文献１に示すようなモータを使用して羽根体を低速回転して大容量の風速を得ることを目指す従来の送風機とを比較すると、例えば送風機の送風筒の吐出口から吐出される風速については上記[表１]と[表４]からモータへの印加電圧が１２Ｖである場合に、入室者が生活したり、行動したりするのに頻度が高い、例えば天井面２から直下１ｍの個所Ｎ１では、本実施形態の送風機ユニット１は、１．９１（ｍ／ｓ）であるのに対して特許文献１に示すように従来の送風機では天井面から直下１ｍの位置では１．５８（ｍ／ｓ）である。従って、本実施形態の方が従来よりも高い風速を得ることができ、騒音の発生を抑制するのに適うとともに室内空気Ｋを充分な風圧にて強い送風圧で到達距離が床面Ｙの近くまで伸び、効率良く還流が行えることがわかった。
【００４８】
また、騒音については、本実施形態の送風機ユニット１は、上記[表３]と[表６]から同様に電圧が１２Ｖの小型のモータ相互を使用した場合に、例えば図８に示すように天井面２から直下１ｍの個所Ｎ１では、騒音値の１回目の測定値が４５．２（ｄＢＡ）であり、２回目の測定値が４４．２（ｄＢＡ）であるのに対して特許文献１に示すような従来の送風機では測定値が５２（ｄＢＡ）である。従って、本実施形態の方が従来よりも騒音レベルが７〜８．２（ｄＢＡ）も低減されることがわかった。
【００４９】
また、本実施形態の送風機ユニット１では、前記外鍔部６ａに例えば係合手段１７により着脱自在に取付られ、摺り合わせ曲面部１８ａを内側に有する抱持筒部１８ｂを設けた取付板１８Ａと、該取付板１８Ａの抱持筒部１８ｂ内に前後、左右如何なる方向へも摺動自在に組込まれる略球状をなす取付基部１９ａと、該取付基部１９ａの下方に設けられた噴出口部１９と、前記取付基部１９ａを摺動自在に保持し、前記取付板１８Ａの下方にビス止めされるスタッドを有する抑え板１８Ｂとにより形成される送風方向を指向する指向部としてのノズル１６が、吐出チャンバー６の外側、図１においては下方に設けられているので、送風機ユニット１を天井面２に対して取付た後でも、摺り合わせ曲面部１８を有する抱持筒部１８ｂ内において略球状をなす取付基部１９ａを摺動させることによりノズル１６を前後、左右如何なる方向へも取付位置を変更できるため、吐出チャンバー６から吐出される室内空気Ｋの送風方向を所望方向に変更可能にすることができる。
【００５０】
そして、遠心ファン４を使用した本実施形態の送風機ユニット１について前述のように天井面２から直下での測定と同様に、図９の如く天井面２から床面Ｙまでの天井高さＨが２,９８０ｍｍ、送風機ユニット１の下面から床面Ｙまでの取付高さＨ′が２,９１０mmの室内において、空調機を３０°Ｃの設定温度にて測定時間として１８；００〜２０；００までの間、運転して暖房を行い、暖気を天井面２付近に滞留させ、送風機ユニット１の送風方向の指向部としてのノズル１６を取付板１８Ａに対して傾斜角αが例えば３４°に傾けた場合に、吐出チャンバー６の吐出口６ｄから吐出される室内空気Ｋの到達個所毎の風速測定と、騒音測定を行った結果、[表７],[表８]を得た。
【００５１】
[表７]は、モータＭへの印加電圧を直流６Ｖ、７Ｖ、８Ｖ、９Ｖ、１０Ｖ、１１Ｖ、１２Ｖと変化して駆動される図１に示すような低騒音型の遠心ファン４について、送風方向を指向する指向部としてのノズル１６を抑え板１８Ｂに対して傾斜角αを例えば３４°に傾けた場合に、吐出チャンバー６からノズル１６を介して吐出される室内空気Ｋの初速、および天井面２から１ｍの個所Ｎ′１、また２ｍ離れた個所Ｎ′２、２.５ｍ離れた個所Ｎ′３、３ｍ離れた個所Ｎ′４、さらに床面Ｙの直上１０ｃｍ離れた個所Ｎ′５のそれぞれの風速測定したものをまとめたものである。
【００５２】
また[表８]は、モータＭへの印加電圧を直流６Ｖ、７Ｖ、８Ｖ、９Ｖ、１０Ｖ、１１Ｖ、１２Ｖに変化して駆動される低騒音型の遠心ファン４について、送風機ユニット１のノズル１６の傾斜角αを例えば３４°に設定した場合の天井面２に対する直下１ｍの位置Ｎ１にて測定したものをまとめたものである。
【００５３】
【表７】

【００５４】
【表８】

【００５５】
こうして、例えば高速回転のモータＭにより羽根体１１が回転駆動される低騒音型の遠心ファン４を使用した本実施形態の送風機ユニット１では、送風方向を指向する指向部としてのノズル１６を傾斜角αとして例えば３４°に傾けた場合に、特許文献１に示すようなモータを使用して羽根体を低速回転して大容量の風速を得ることを目指す従来の送風機とを比較すると、例えば送風機の送風筒の吐出口から吐出される風速については上記[表７]と[表４]から、モータへの印加電圧が１２Ｖである場合に、入室者が生活したり、行動したりするのに頻度が高い、例えば天井面２から１ｍの個所Ｎ′１では、本実施形態の送風機ユニット１は、１．３４（ｍ／ｓ）であるのに対して特許文献１に示すように従来の送風機では天井面から直下１ｍの位置では１．５８（ｍ／ｓ）である。
従って、送風方向の指向部としてのノズル１６を傾けて送風方向を変更した本実施形態の送風機ユニット１と、送風機の直下１ｍの位置にて測定した従来の送風機と比較した場合に、本実施形態では僅かに弱いが充分に高い風速を得ることができ、しかも騒音は４６．０ｄＢであり、騒音は低減され、発生が抑制されるとともに室内空気Ｋを充分に強い送風圧で到達距離が床面Ｙの近くまで伸びるので、室内空気Ｋの還流が効率良く行えることがわかった。
【００５６】
また、ノズル１６の噴出口部１９の横断面形状、絞り具合、長さ等は、用途に応じて適宜変更が可能である。従って、ノズル１６は用途に応じた多種類を用意して互換可能にすれば便利である。
【００５７】
また、本実施形態の送風機ユニット１では例えば合成樹脂可塑物、またはアルミニウム等の入手が容易で加工し易い金属板により形成され、外側に配置される外形形状が略有天筒状に形成される径大のハウジング８と、該ハウジング８と同様材料により形成され、ハウジング８内に風道部９を介して連通して設けられる小径な筒状箱体によりなる吐出チャンバー６とを組付ける場合に、吐出チャンバー６の外周に適宜個数、本実施形態では半径方向に設けた間隔保持片６ｂの外周上面に設けた載置段部６ｃにハウジング８の下縁を載置して吐出チャンバー６の下板に対して所定間隔Ｌの吸気口Ｐを望ませてハウジング８を吐出チャンバー６に嵌合させたり、間隔保持片の両側に起立した係合子６ｅ,６ｅをハウジング８の内側に対向して突設した係合片８ｂ,８ｂに係合させたり、図には示さないが止ねじをハウジング８の外周から間隔保持片６ｂに螺入する等して組付ける。このため、ハウジング８と吐出チャンバー６との組付が容易になり、室内空気Ｋを吸い込む吸気チャンバー５と、送風機ユニット１内に吸入した室内空気Ｋを吐出する吐出チャンバー６とをハウジング８内に備えた送風機ユニット１を形成することができる。
【００５８】
また、本実施形態の送風機ユニット１では、遠心ファン４は、前述のように吸気チャンバー５と吐出チャンバー６とを内部に有するハウジング８に対して外部、例えば図１に示すようにハウジング８の天面にビス１４を用いてビス止めしたり、または図には示さないがモータケース１２を円周方向に回動操作し、モータケース１２の外周に周方向に突設した突片を、ハウジング８に同心的に設けた複数個の係止片に着脱自在に係止するバイヨネット方式等を採用することにより遠心ファン４をハウジング８の外部に取付けることができる。従って、遠心ファン４の組付操作や分解操作が容易かつ確実に行え、保守・点検が容易になる。例えば遠心ファン４が故障したりした場合は、部品の交換や修繕も容易に行え、掃除も楽に行える。
【００５９】
また、図１０に示すものは本発明の低騒音型室内送風機の第２実施形態を示す。
この実施形態では、下方面の少なくとも一部に開口部３０を設けたハウジング８の全体形状が略箱状をなし、吸気チャンバー５は、該ハウジング８内に隔壁３１を介して設けられた小室をなす吐出チャンバー６との間の空間に形成される点が前記第１実施形態と異なる構成であるほかは、前記第１実施形態と同様の構成、作用である。
【００６０】
また、図１１および図１２に示すものは本発明の低騒音型の室内送風機の第３実施形態を示す。
この実施形態では、ハウジング８の全体形状が略箱状をなす点は前記第２実施形態と同様の構成である。
しかしながら、この実施形態ではハウジング８の下面に保持鍔部４０を外縁に形成して該保持鍔部４０内に開口部４１を形成し、幅方向略中央に設けた摺動側板部４２を前記開口部４１の内側に設けた案内溝４３に沿って抜差可能に前記開口部４１内に取付けることにより、吸気チャンバー５は、小室をなす吐出チャンバー６との間の空間に形成される構成を採用している。
こうして、小室をなす吐出チャンバー６を、全体形状が略箱状をなすハウジング８の保持鍔部４０に設けた開口部４１内に、案内溝４３に沿って摺動側板部４２を抜差可能に設けることによりハウジング８内に吸気チャンバー５と吐出チャンバー６とを備えた低騒音型の室内送風機の組付および分解を容易にしたほかは、前記第２実施形態と同様の構成、作用である。
【００６１】
さらに、図１３は本発明の第４実施形態である。
この第４実施形態では、遠心ファン４は、吸気チャンバー５と吐出チャンバー６とを内部に有するハウジング８内に組込んで取付られるようにしているほかは、前記第１実施形態と同様の構成、作用である。
【００６２】
図示する上記各実施形態で示す室内送風機では、ファンとして遠心ファン４を用いた送風機ユニット１が示されているが、遠心ファン４を用いたのはファンに対して入口側に設けた吸気チャンバー５と、出口側に吐出チャンバー６とを設けたことにより内部損失が大きくなる場合でも天井面２からの到達距離を充分に伸ばすことができるとともに強い風圧を確保し、騒音が静かであるが、大きな出力を発揮するからであり、これは代表的な例示であり、これに制限されずに、例えばファンに対して入口側に設けた吸気部としての吸気チャンバー５と、吐出部をなす吐出チャンバー６とが軸方向に設けられる軸流ファンでも本発明の適用範囲である。
【００６３】
【発明の効果】
本発明の請求項１に記載の発明は、天井面の裏面の空間部に取付られる送風機ユニットであって、ファンと、該ファンの入口側に設けられ、天井面付近に滞留する空気を吸い込む吸気部と、前記ファンの出口側に設けられ、吸入した空気を室内に吐出する吐出部とを備え、前記吸気部をなす吸気チャンバーと前記出吐部をなす吐出チャンバーとの内面には吸音材が内貼りされている低騒音型室内送風機において、前記ファンは、吸気チャンバーと吐出チャンバーとを内部に有するハウジングの外部に取付られ、高速回転可能に設けられた遠心ファンまたは軸流ファンであり、吸引口に連通して前記ファンの入口側に設けられた前記吸気チャンバーと、前記ファンの出口側に内部が連通され遠心方向に設けられた横断面略矩形の風道部と、該風道部を介して連通される筒状箱体の吐出チャンバーとは屈曲された連続する各小室として設けられたので、送風機ユニットに使用するモータの小型化と小容量化がはかることができる。
そして、天井高さが高く到達距離が長い室内個所でも入室者が生活したり、行動したりする頻度が高い天井面の直下１ｍから床面付近まで、および天井面の直下１ｍから床面付近に対して水平方向にまで充分な風圧により室内空気の還流を促し迅速かつ確実に、しかも万遍なく換気を行うことができ、また送風機自体はコンパクトな外容積に形成されるため、薄形設計がはかれ、天井面の裏の空間部が狭い設置スペースでさえも容易かつ確実に送風機の取付が行え、さらには構造簡単にして製作および組付けが容易で製作コストが安価になる。
また、前述のように、ファンは、遠心ファンまたは軸流ファンであり、吸引口に連通してファンの入口側に設けられた吸気チャンバーと、ファンの出口側に内部が連通されて遠心方向に設けられた横断面略矩形の風道部と、該風道部を介して連通される筒状箱体の吐出チャンバーとは屈曲された連続する各小室として設けられているので、天井面付近に滞留する室内空気を吸い込む吸気チャンバーと、ファン内に吸入した室内空気を風道部を介して送風する吐出チャンバー等の気流接触面の表面性状に対する摩擦が低減され、しかも気流は吸引されてから吐出されるまで通路内で曲線的に遠心ファン４の吹出方向となる遠心方向に曲げられるため、ファンの羽根体が回転する時の風切り音、ファン内の振動、および吸気チヤンバーの吸引口付近と吐出チャンバーの吐出口付近の気流により使用時に騒音が発生した場合に、使用時における騒音の発生を低減することができる。
また、ファンは、遠心ファンまたは軸流ファンであり、ハウジングの外部に取付けられるので、ファンの組付操作や分解操作が容易かつ確実に行え、保守・点検が容易になり、例えば、ファンが故障したりした場合は、部品の交換や修繕も容易に行え、掃除も楽に行える。
【００６５】
また、本発明の請求項３に記載の発明は、請求項１において前記ファンは、吸気チャンバーと吐出チャンバーとを内部に有するハウジング内に組込んで取付られたことを特徴とするので、外容積がコンパクトな低騒音型の室内送風機が得られる。
【００６６】
また、本発明の請求項２に記載の発明は、請求項１において、前記吸気チャンバーは、略有天筒状に形成される径大のハウジングと、該ハウジング内に風道部を介して連設される小径の筒状箱体からなる吐出チャンバーとの間の外周空間に形成されることを特徴とし、また、本発明の請求項３に記載の発明は、請求項１または２において、吸気チャンバーは、開口部を下側の少なくとも一部に設けたハウジングと、該ハウジング内に隔壁を介して設けられた小室をなす吐出チャンバーとの間の空間に形成されたことを特徴とし、また、本発明の請求項４に記載の発明は、請求項１−３の何れかにおいて、吸気チャンバーは、全体形状が略箱状をなし下面外縁には保持鍔部が外縁に形成され且つ該保持鍔部内に開口部が形成されたハウジングと、前記開口部内に摺動側板部を介して抜差可能に取付けられ且つ小室をなす吐出チャンバーとの間の空間に形成されることを特徴とするので、室内空気を吸い込む吸気チャンバーと、ファンのモータケースの外面に接触せずに内部が風道部を介して送風機ユニット内に吸入した室内空気を吐出する吐出チャンバーとの数個の連続した小室が直線的ではなく曲線的に遠心ファン４の吹出口となる遠心方向に形成されるため、使用時における騒音の発生が低減される。
しかも、天井高さが高く到達距離が長い室内個所でも入室者が生活したり、行動したりするのに頻度が高い天井面の直下１ｍから床面付近まで、および天井面の直下１ｍから床面付近に対して水平方向にまで広範に充分な風圧により室内空気の還流が迅速かつ確実に、しかも万遍なく行える。また、送風機自体はコンパクトな外容積に形成されて薄形設計がはかれ、天井面の裏の空間部が狭い設置スペースでさえも容易かつ確実に取付が行え、さらには構造簡単にして製作および組付けが容易で製作コストが安価になる。
【００６７】
また、本発明の請求項５に記載の発明は、請求項１−４の何れかにおいて前記吸音材は、ポリウレタン・フォーム、ポリスチレン・フォーム、スポンジ等の多孔質の軟質材、もしくはフェルト、ガラス繊維等の繊維状物により形成されたことを特徴とするので、容易にしかも廉価に資材の調達が行え、使用時における騒音の発生が低減される。
【００６８】
また、本発明の請求項６に記載の発明は、請求項１−５の何れかにおいて、吐出チャンバーの出口には、送風方向を指向する指向部を設けたことを特徴とし、また、本発明の請求項７に記載の発明は、請求項６において、前記指向部を指向方向可変のノズルで構成したことを特徴とするので、天井面に対して送風機ユニットを取付後においても指向部を前後、左右如何なる方向へも変更できるため、吐出される室内空気の送風方向を所望方向に変更可能にすることができる。
【００６９】
また、本発明の請求項８に記載の発明は、請求項６または７において、前記指向部が吐出チャンバーに、着脱自在に設けられたことを特徴とし、また、本発明の請求項９に記載の発明は、請求項７において前記ノズルは、前記外鍔部に着脱自在に取付られ、摺り合わせ曲面部を内側に有する抱持筒部を設けた取付板と、該抱持筒部内に前後、左右如何なる方向へも摺動自在に組込まれる略球状をなす取付基部の下方に設けた噴出口部と、前記取付基部を摺動自在に保持し前記取付板の下方に取付けられる抑え板とから成ることを特徴とするので、ノズルの組付と交換、保守は容易になり、また、ノズルの噴口部の横断面形状、絞り具合、長さ等は、用途に応じて適宜変更が可能であり、用途に応じた多種類を用意して互換可能にすることができる。
【図面の簡単な説明】
【図１】 図１は本発明の低騒音型室内送風機の第１実施形態を示す断面図である。
【図２】 図２は本実施形態で使用するハウジングの平面図である。
【図３】 図３は図２のＡ−Ａ矢視断面図である。
【図４】 図４は本実施形態で使用する吐出チャンバ−の平面図である。
【図５】 図５は図４のＢ−Ｂ矢視断面図である。
【図６】 図６は本実施形態で使用するノズルの平面図である。
【図７】 図７はＣ−Ｃ断面図である。
【図８】 図８は本実施形態の低騒音型室内送風機の風速と騒音との測定時の使用状態を示す断面図である。
【図９】 同じく本実施形態において送風方向の指向部としてノズルを傾けた場合に、室内空気の到達個所毎の風速と騒音との測定を行う説明的な側面図である。
【図１０】 図１０は本発明の低騒音型室内送風機の第２実施形態を示す断面図である。
【図１１】 図１１は本発明の低騒音型室内送風機の第３実施形態を示し、背面側から見た斜視図である。
【図１２】 図１２は同じく本発明の低騒音型室内送風機の第３実施形態を示す斜視図である。
【符号の説明】
１ 送風機ユニット
２ 天井面
２Ａ 天井パネル
３ 空間部
４ 遠心ファン
５ 吸気チャンバー
６ 吐出チャンバー
７ 吸音材
８ ハウジング
９ 風道部[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a low noise type indoor blower, which can be optimally used in a place where quietness is particularly required, such as a house, a hospital, an office room, and the like, and is provided on a ceiling surface or the like for circulation of indoor air. It is a low operating noise, has a high ceiling height, ensures a sufficient wind pressure at a long reach, and tries to return the indoor air quickly and reliably and without any trouble.
[0002]
[Prior art]
Conventionally, for example, an air blower for recirculating indoor air by eliminating the uneven temperature of indoor air near the ceiling surface and floor surface of the room during heating, for example, is embedded in the space behind the ceiling surface. A plurality of housings that are installed and have a substantially cylindrical housing that is open at the bottom, an intake port that is provided in the housing and sucks room air from the surroundings, and is rotatably provided by the driving force of the motor. There are some which are formed by a single blade body and a blower cylinder that sends out indoor air sucked by rotating the blade body downward with respect to the ceiling surface.
When the motor is driven and the blades of the blower are rotated, for example, warmed room air staying in the vicinity of the ceiling surface is sucked into the housing from the intake port, and is discharged downward through the blower cylinder by the blades. It becomes a downward flow and blows. Moreover, the cold and large specific room air stagnating in the vicinity of the floor surface is sucked by the blower and becomes an upward flow. Thus, there is a blower in which room air is forcedly convected by a blower to be recirculated to eliminate temperature unevenness between the ceiling surface and the floor surface of the room (for example, see Patent Document 1).
[0003]
[Patent Document 1]
Japanese Patent No. 3032886 (page 1-4, FIG. 1, FIG. 2, FIG. 3, FIG. 4)
[0004]
[Problems to be solved by the invention]
When the indoor air is circulated by installing a blower in the space behind the ceiling surface, etc., the reach of the blast pressure sent from the blower cylinder is increased to a level close to the floor so that the indoor air is sufficiently circulated. It is necessary to measure, but at this time, it is achieved by using a motor that rotates the blades of the blower with a low rotation speed and a large capacity, but when this motor is used, noise is generated at a considerable sound pressure level. Will be generated.
For example, in the case of a blower using a motor m having a rated power supply voltage of 12 V DC, the normal use voltage is suppressed to 7.5 V DC. For example, in a room with a ceiling height of 2.700 m, a position just below 1 m from the ceiling surface. The noise level was about 52 (dBA).
And it is thought that the generation source of the noise in the blower is caused by the noise generated by the vibration in the blower and the airflow near the intake port and the discharge port, in addition to the wind noise of the blade body (fan) of the blower.
Among these, in order to reduce noise, there is a limit in the case of reducing noise generation by suppressing the shape of the blade body of the blower. In addition, in order to eliminate the vibration in the blower, there is a limit in reducing the generation of noise by buffering the vibration by using an elastic material such as rubber for the support portion of the blower.
Like the conventional blower described in Patent Document 1, the floor surface discharged from the discharge port located on the ceiling surface of the blower having a blade body rotated by a relatively small motor to recirculate indoor air It is necessary to increase the rotational speed of the motor that rotates the blade body and to rotate the blade body at a high speed in order to sufficiently increase the reach distance of the air blow and sufficiently increase the wind pressure of the blow air reaching the floor surface. However, increasing the number of rotations of the motor generates a large amount of noise.
Moreover, in order to sufficiently recirculate room air, not only the reach distance directly below the ceiling surface where the blower is installed, such as a blower embedded in the space on the back surface of the ceiling as in Patent Document 1, Unless a strong wind pressure is obtained at a sufficient reach distance to any corner in the room at an arbitrary distance in the horizontal direction from directly below, the room air cannot be sufficiently recirculated. For this purpose, the fan can be rotated at a high speed by increasing the number of rotations of the motor for rotating the blades, and the output can be increased. However, increasing the number of rotations of the motor causes a noise increase. Become.
In addition, when a large-capacity motor for rotating the fan of the blower is used, the reach from the ceiling surface to the floor surface is long due to the large output, the wind pressure is strong, and the indoor air can be sufficiently circulated Although a blower can be obtained, the generation of noise is significant and the blower itself becomes large, so that a considerable space is required for the space behind the ceiling surface.
[0005]
The present invention solves the above-mentioned conventional disadvantages, reduces the size and capacity of the fan motor, reduces the generation of noise during use, and provides sufficient wind pressure even in indoor locations with a high ceiling height and a long reach. The return of indoor air can be performed quickly and reliably and evenly, and the blower itself is formed in a compact outer volume and has a thin design, making it easy even in a narrow installation space behind the ceiling surface. In addition, the present invention aims to provide a low noise type indoor blower that can be securely mounted, and has a simple structure, is easy to manufacture and assemble, and is low in manufacturing cost.
[0006]
[Means for Solving the Problems]
  The present invention has been made in view of the above problems, and the invention according to claim 1
  A fan unit attached to a space portion on the back surface of the ceiling surface, provided on a fan, an inlet side of the fan, an intake portion for sucking air staying in the vicinity of the ceiling surface, and an outlet side of the fan, In a low noise type indoor blower comprising a discharge portion that discharges the sucked air into the room, and a sound absorbing material is attached to the inner surfaces of the intake chamber forming the intake portion and the discharge chamber forming the discharge portion,
  The fan isA centrifugal fan or an axial fan that is attached to the outside of the housing having an intake chamber and a discharge chamber inside and is provided so as to be capable of high-speed rotation.The intake chamber provided on the inlet side of the fan in communication with the suction port, and on the outlet side of the fanInsideCommunicatedProvided in the centrifugal directionThe air passage portion having a substantially rectangular cross section and the discharge chamber of the cylindrical box body communicated via the air passage portion were provided as bent continuous small chambers.By the above, the wind pressure is sufficient from the 1m directly below the ceiling surface to the floor surface and the horizontal direction from 1m directly below the ceiling surface to the floor surface. Acquiring low noise while obtainingIt is characterized by.
[0007]
The invention according to claim 2 of the present invention employs a means according to claim 1, wherein the fan is attached to the outside of a housing having an intake chamber and a discharge chamber inside. .
[0008]
According to a third aspect of the present invention, there is provided the means according to the first aspect, wherein the fan is incorporated and mounted in a housing having an intake chamber and a discharge chamber therein. Adopted.
[0009]
  In Claim 1, the intake chamber which makes the intake part provided in the inlet side of the fan of the air blower unit attached to the space part of the back surface of a ceiling surface, The discharge chamber which makes the discharge part provided in the exit side of the fan, With the sound absorbing material that is affixed to the inner surface of
For example, the noise generated by use of the blade unit in the blower unit, such as wind noise of the blower unit, vibration in the blower unit, and sound generated by the airflow in the intake chamber and the discharge chamber are absorbed and muffled. Also, for fansAttached to the outside of the housing that has an intake chamber and a discharge chamber inside, it was installed to be able to rotate at high speed.A centrifugal fan or an axial fan is used, and it is connected to the suction port and is provided on the inlet side of the fan and on the outlet side of the fan.InsideCommunicatedProvided in the centrifugal directionThe air passage portion having a substantially rectangular cross section and the discharge chamber of the cylindrical box body communicated via the air passage portion are provided as bent continuous small chambers. The room air that is retained near the ceiling surface is sucked into the fan from the fan inlet, and then from the outlet side.Without being affected by the vibration of the fan motor case or being obstructed by narrowing the air pathFriction against the surface properties of the airflow contact surface such as the discharge chamber of the cylindrical box through the rectangular airway portion of the cross section is reduced,The discharge is concentrated from one outlet of the discharge chamber.Moreover, the airflow is curved in the passage from the suction to the discharge.To centrifugal directionBending, for example, noise generated by wind noise of the blade body of the blower unit, vibration in the blower unit, and sound generated by the air flow in the intake chamber and the discharge chamber are reduced.
  In addition, the fan is mounted outside the housing that has an intake chamber and a discharge chamber inside, making assembly operations easier during production and disassembling operations during maintenance and inspection.And even cleaningEasy.
  In addition, since the fan is mounted in a housing having an intake chamber and a discharge chamber inside, the indoor air retained near the ceiling surface is sucked into the intake chamber from the suction port, and then the intake chamber Even if it is a small fan from a fan to a discharge chamber via a wind path part, it is blown with high pressure and can extend the reach distance.
[0010]
  Further, the claims of the present invention2According to the invention described in any one of claims 1 to 8, the intake chamber includes a large-diameter housing formed in a substantially cylindrical shape, and a small-diameter housing continuously provided in the housing via an air passage portion. It is formed in the outer peripheral space between the discharge chamber consisting of a cylindrical box..
[0011]
  Further, the claims of the present invention3The invention described in claim 1Or 2The intake chamber is formed in a space between a housing provided with an opening in at least a part of the lower side and a discharge chamber forming a small chamber provided in the housing via a partition wall. Do.
[0012]
  Further, the claims of the present invention4The invention described in claim 13In any of the above, the intake chamber has a generally box-like shape, a housing in which a holding collar is formed on the outer edge of the lower surface and an opening is formed in the holding collar, and a sliding side plate in the opening. It is characterized in that it is formed in a space between a discharge chamber that is removably attached and forms a small chamber.
[0013]
  Further, the claims of the present invention5The invention described in claim 14In any of the above, the sound absorbing material is formed of a porous soft material such as polyurethane foam, polystyrene foam, sponge, or a fibrous material such as felt or glass fiber..
[0014]
  Further, the claims of the present invention6The invention described in claim 15In any of the above, a directing portion that directs the blowing direction is provided at the outlet of the discharge chamber.
[0015]
  Further, the claims of the present invention7The invention described in claim6In the above, the directing portion is composed of a nozzle having a variable directing direction.
[0016]
  Further, the claims of the present invention8The invention described in claim6Or7The directional unit is detachably provided in the discharge chamber.
[0017]
  Further, the claims of the present invention9The invention described in claim7The nozzle is detachably attached to the outer flange portion, and has a mounting plate provided with a holding cylinder portion having a sliding curved surface portion inside, and slides in the holding cylinder portion in any direction, front and rear, left and right. A spout port provided below a substantially spherical mounting base that is freely assembled, and a holding plate that slidably holds the mounting base and is mounted below the mounting plate..
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, specific examples of embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a cross-sectional view showing a first embodiment of a low-noise indoor fan according to the present invention, FIG. 2 is a plan view of a housing used in this embodiment, and FIG. 3 is a cross-sectional view taken along arrow AA in FIG. 4 is a plan view of a discharge chamber used in the present embodiment, FIG. 5 is a cross-sectional view taken along line BB in FIG. 4, FIG. 6 is a plan view of a nozzle used in the present embodiment, and FIG. C cross-sectional view, FIG. 8 is a cross-sectional view showing the usage state of the low-noise indoor fan of the present embodiment when measuring the wind speed and noise, and FIG. 9 is the same when measuring the wind speed and noise with the nozzle tilt angle changed. It is sectional drawing which shows the use condition of.
[0019]
Reference numeral 1 denotes a blower unit attached to the space 3 on the back surface of the ceiling surface 2. The blower unit 1 is provided with a fan and indoor air K that is provided on the inlet side I of the fan and stays near the ceiling surface 2. This is the same configuration as the blower unit described in Patent Document 1 in that it includes an intake section that sucks in and a discharge section that is provided on the outlet side O of the fan and discharges the sucked air into the room.
[0020]
  However, in this embodimentAir in the vicinity of the ceiling is sucked from the inlet side I of the lower fan, and blown out from the outlet 13 of the outlet side O in the centrifugal direction of the fan.The thing using the centrifugal fan 4 is shown in figure.
  AndCommunicates with suction port PThe intake part is formed as an intake chamber 5,Communicating via the centrifugal fan 4The discharge partIt consists of a small-diameter cylindrical boxThe discharge chamber 6 is provided, and a sound absorbing material 7 is attached to the inner surfaces of the intake chamber 5 and the discharge chamber 6.
[0021]
In the present embodiment, the intake chamber 5 is formed of, for example, a synthetic resin plastic material or a metal plate that is easily available and easy to process, such as aluminum, and the outer shape disposed on the outside is formed in a substantially cylindrical shape. An outer periphery and an upper portion between a large-diameter housing 8 and a discharge chamber 6 that is formed of the same material as the housing 8 and is formed in the housing 8 and communicated with the air passage portion 9. Formed in the space 10.
[0022]
Reference numeral 6 a denotes a substantially annular outer casing formed on the outer periphery of the lower surface of the discharge chamber 6. The outer diameter 6 of the outer casing 6 a is slightly larger than the inner diameter φ 2 of the housing 8. Thus, when the indoor air K near the ceiling surface 2 is sucked together with the outer casing 8a provided on the lower outer periphery of the housing 8, the resistance is reduced and the introduction is facilitated.
[0023]
  6b is an interval holding piece provided in an appropriate number on the outer periphery of the discharge chamber 6, one in the present embodiment is provided in the radial direction, and a housing 8 is mounted on the mounting step portion 6c provided on the outer peripheral upper surface of the interval holding piece 6b. Is placed on the outer edge 6a of the discharge chamber 6 so that the suction port P is spaced at a predetermined interval L.NearThe housing 8 is assembled to the discharge chamber 6 so as to be removed. At this time, in order to assemble the housing 8 with respect to the discharge chamber 6, for example, the inner periphery of the lower edge of the housing 8 may be fitted to the mounting step portion 6c provided on the outer peripheral upper surface of the interval holding piece 6b. The engaging elements 6e, 6e standing on both sides of the spacing piece 6b are engaged with the engaging pieces 8b, 8b protruding from the inside of the housing 8 or a set screw is not shown in the figure. It can also carry out by screwing in into the space | interval holding piece 6b from the outer periphery.
[0024]
  In the present embodiment, the centrifugal fan 4 is a low noise type fan in which a large number of blade bodies 11 that are rotated at high speed using a small motor M of DC 12V as a driving source are provided in an eccentric position with respect to the motor case 12. Is done.
  The centrifugal fan 4 is attached to the outside of the housing 8 having the intake chamber 5 and the discharge chamber 6 inside as described above, for example, on the top surface of the housing 8 as shown in FIG. The indoor air K sucked into the centrifugal fan 4 is connected to the air passage portion 9 having a rectangular cross section 13.The outlet 13 of the centrifugal fan 4,To the discharge chamber 6 composed of a small-diameter cylindrical box through the air passage 9The inside is communicated in the centrifugal directionIt is designed to blow high pressureTherefore, it is not affected by the vibration caused by the motor case of the fan or the air path is narrowed.The centrifugal fan 4 can be attached to the housing 8 by, for example, screwing it with a screw 14 as shown in the figure, so that the assembling operation at the time of manufacture can be easily performed, or during maintenance and inspection. In addition to facilitating the disassembling operation, the housing 8 is provided with a projecting piece concentrically provided on the outer periphery of the motor case 12 by rotating the motor case 12, although not shown in the drawing. Alternatively, a bayonet system in which the plurality of locking pieces are detachably locked may be employed.
[0025]
The sound absorbing material 7 is made of, for example, a porous soft material such as polyurethane foam, polystyrene foam, sponge, or a fibrous material such as felt or glass fiber. For example, the sound generated by the wind noise of the blade body 11 of the blower unit 1, the vibration in the blower unit 1, and the airflow in the intake chamber 5 and the discharge chamber 6 are absorbed and silenced.
[0026]
The overall shape of the air passage portion 9 is, for example, substantially rectangular in cross section (see FIG. 2). In this embodiment, the upper air passage constituting portion 9A formed on the inner periphery of the housing 8 and the discharge chamber 6 are provided. It is divided into two parts, a lower airway component 9B formed at the lower part of the outer periphery, and the upper airway component 9A and the lower airway component 9B are combined vertically to facilitate assembly and disassembly. . The assembly of the upper airway component 9A and the lower airway component 9B is performed by, for example, the engagement protrusion 15a and the engagement recess 15b in which the engagement protrusion 15a can be engaged and disengaged.
[0027]
Reference numeral 16 denotes a nozzle that serves as a directing portion that directs the air blowing direction provided outside the discharge chamber 6, for example, below in FIG. 1, and this nozzle 16 has a desired air blowing direction of the indoor air K discharged from the discharge chamber 6. This is to make it possible to change the direction. In this embodiment, the nozzle 16 is detachably attached to the outer flange portion 6a by, for example, the engaging means 17, and has an attachment plate 18A provided with a holding cylinder portion 18b having a sliding curved surface portion 18a on the inside, A mounting base portion 19a having a substantially spherical shape that is slidably incorporated in the holding cylinder portion 18b of the mounting plate 18A in any direction, front and rear, the jet port portion 19 provided below the mounting base portion 19a, and The holding base portion 19a is slidably held and formed by a holding plate 18B having a stud screwed to the lower side of the mounting plate 18A. The cross-sectional shape, the degree of restriction, the length, and the like of the ejection port portion 19 can be appropriately changed according to the application, and various types can be prepared according to the application to be compatible.
[0028]
Reference numeral 20 denotes attachment means for attaching the blower unit 1 of the present embodiment. The attachment means 20 includes a ring-shaped tie band 21 fitted to the outside of the housing 8 and a leaf spring attached to the tie band 21. 22. Then, the fan unit 1 is provided in the space on the back surface of the ceiling surface 2 by elastically holding the mounting opening 2a provided in the ceiling panel 2A from above and below by the outer casing 8a of the housing 8 and the elastic leaf spring 22. It is attached so that it may be embedded in 3.
[0029]
  1st Embodiment of this invention consists of the above structure, and the air blower unit 1 is attached to the space part 3 of the back surface of the ceiling surface 2. As shown in FIG.
  For example, as shown in FIG. 1, the blower unit 1 is attached to the ceiling by an outer flange 8 a of the housing 8 and an elastic leaf spring 22 provided on a ring-shaped tie band 21 fitted to the outside of the housing 8. The blower unit 1 has a suction port P on the lower surface of the ceiling surface 2 by elastically holding the mounting opening 2a provided on the panel 2A from above and below.NearIt is attached so that it may be embedded in the space part 3 of the back surface of the ceiling surface 2 so that it may be rare.
[0030]
  And when the motor M of the blower unit 1 is driven by turning on a switch not shown in the figure, the blade body 11 is rotated, so that the indoor air K staying in the vicinity of the ceiling surface 2 isFacing the bottom of the ceilingIt is sucked into the intake chamber 5 from the suction port P, and then from the intake chamber 5Mounted on top of housing 8It is sucked into the centrifugal fan 4 from the lower inlet of the centrifugal fan 4 and the centrifugal fan 4Of the outlet side O provided in the centrifugal directionFrom air outlet 13Rectangular cross sectionTo the discharge chamber 6 through the air passage 9Without being affected by vibration by the motor case 12 of the centrifugal fan 4 or being obstructed by narrowing the air pathHigh-pressure air is blown.
[0031]
Further, in the present embodiment, the blower unit 1 is a low-noise, small-sized centrifugal device in which a large number of blade bodies 11 that are rotated at high speed using a DC 12V motor M as a drive source are provided at eccentric positions with respect to the motor case 12. Since the fan 4 is used, the internal pressure when the indoor air K is sucked into the intake chamber 5 and discharged from the discharge chamber 6 is increased, and the generation of wind noise by the blades 11 can be suppressed. Thus, compared with a conventional blower using a motor with a rated power supply voltage of DC 12V and a low rotation speed and a large capacity, generation of noise during use can be suppressed.
[0032]
  Further, in the blower unit 1 of the present embodiment, the air in the vicinity of the ceiling surface is sucked and the inside of the substantially celestial tubular housing 8 is inside the centrifugal fan 4 that blows out from the blowout port 13 in the centrifugal direction. An intake chamber 5 connected to the inlet side I or the outlet side O and serving as an intake portion for sucking indoor air K staying in the vicinity of the ceiling surface 2 from the suction port P on the lower surface of the ceiling, and a centrifugal fan 4 from the inlet side below the fan Several continuous small chambers are formed not in a straight line but in a curved line with a cylindrical box-shaped discharge chamber 6 that forms a discharge part for blowing indoor air K sucked into the air through a wind passage part 9 having a rectangular cross section. Therefore, the intake chamber 5 that sucks in the indoor air K staying near the ceiling surface 2 and the indoor air K sucked into the centrifugal fan 4 areWithout being affected by the vibration of the fan motor case or being obstructed by narrowing the air pathFriction with respect to the surface properties of the airflow contact surface such as the discharge chamber 6 that blows air through the airway portion 9 is reduced, and the airflow is curved in the passage until it is discharged after being sucked.To the centrifugal directionSince it is bent, the wind noise when the blade body 11 of the centrifugal fan 4 rotates, the vibration in the centrifugal fan 4, and the airflow in the vicinity of the suction port P of the intake chamber 5 and the discharge port 6d of the discharge chamber 6 are used during use. When noise occurs, the noise level is reduced.In addition, since the centrifugal fan 4 itself uses a low-noise small motor, noise is reduced even when the centrifugal fan 4 is rotated at a high speed.
[0033]
Moreover, on the inner surfaces of the intake chamber 5 and the discharge chamber 6, for example, a sound absorbing material 7 formed of a porous soft material such as polyurethane foam, polystyrene foam, or sponge, or a fibrous material such as felt or glass fiber. Is affixed to the inner surface of the centrifugal fan 4, so that wind noise is generated when the blade body 11 of the centrifugal fan 4 rotates, vibrations in the centrifugal fan 4 are generated, and the vicinity of the suction port P of the intake chamber 5. Even when noise is generated during use due to the airflow flowing in the vicinity of the discharge port 6d of the discharge chamber 6, it is absorbed by the sound absorbing material 7, so that the noise level is reduced.
[0034]
In the blower unit 1 of the present embodiment, a low-noise centrifugal fan 4 in which a large number of blade bodies 11 rotated at high speed using a DC motor M as a drive source is provided at an eccentric position with respect to the motor case 12 is used. Therefore, as shown in FIG. 8, the ceiling height H from the ceiling surface 2 to the floor surface Y is 2,980 mm, and the installation height H ′ from the lower surface of the blower unit 1 to the floor surface Y is 2,910 mm. , The air conditioner is operated at a set temperature of 30 ° C. for a measurement time of 11; 30 ′ to 15; 30 ′ to perform heating, and the warm air stays in the vicinity of the ceiling surface 2. [Table 1], [Table 2], and [Table 3] were obtained as a result of wind speed measurement and noise measurement for each location where the indoor air K discharged from the discharge port 6d of the discharge chamber 6 reached.
[0035]
[Table 1] shows a low noise type centrifugal fan as shown in FIG. 1 driven by changing the applied voltage to the motor M to DC 12V, 10V, 9.5V, 8V, 7.5V, 6.5V. 4, the initial speed of the indoor air K discharged from the discharge chamber 6 of the blower unit 1 through the nozzle 16, the location N1 immediately below the ceiling surface 2, the location N1 1.5 m below, and the location 2 N immediately below the location 2 The results of wind speed measurement of the part N3, the part N4 located 2.5m immediately below, and the part N5 located 10cm directly above the floor surface Y are summarized.
[0036]
Also, [Table 2] is a place 10 cm horizontally from the floor surface Y 1 m away from the ceiling surface 2 and 20 cm horizontally from the floor surface Y from a position N2 1.5 m away from the floor N. Location, a location 30 cm horizontally from the position N3 2 m below and 30 cm horizontally from the floor Y, a location 40 cm from the position N4 2.5 m directly below the floor Y, and a location 10 cm above the floor Y N5a, N5bN5c, N5d, N5e, N5f, N5g, N5h, N5i 10cm, 20cm, 30cm, 40cm, 50cm, 60cm, 70cm, 80cm, 90cm, 100cm apart from N5 , N5j wind speed was measured and summarized. As the used wind speed measuring machine, for example, a model MODEL 6511 wind speed / temperature / humidity meter manufactured by Nippon Kanomax Co., Ltd. was used.
[0037]
[Table 3] shows a low noise type centrifugal fan 4 driven by changing the applied voltage to the motor M to DC 12V, 10V, 9.5V, 8V, 7.5V, 7V, 6.5V. This is a summary of noises measured twice at a position N1 immediately below the ceiling surface 2 generated from the blower unit 1 and at a position N3 approximately 1 m above the floor surface Y. As the noise measuring device used, a model 3430 digital sound level meter manufactured by Hioki Electric Co., Ltd. was used.
[0038]
[Table 1]

[0039]
[Table 2]

[0040]
[Table 3]

[0041]
In addition, as a comparative example, Table 4 shows that the ceiling height from the ceiling surface to the floor surface of a conventional blower as shown in Patent Document 1 in which the rated power supply voltage to the motor is changed to DC 12 V, 10 V, and 8 V is used. When installed on the ceiling surface of a 2,700 mm room, the air conditioner is operated at a set temperature of 30 ° C. for heating, and warm air is retained near the ceiling surface before being discharged from the blower outlet. As a result of wind speed measurement and noise measurement at each arrival point of indoor air, [Table 4], [Table 5] and [Table 6] were obtained.
[0042]
[Table 4]

[0043]
Among these, [Table 4] shows the room air discharged from the discharge port of the blower cylinder of the blower of Patent Document 1 that is driven when the rated power supply voltage to the motor changes to DC 12V, 10V, and 8V. The initial velocity, the location 1m below the ceiling surface, the location 1.7m away from the ceiling surface, and the wind speed measurement at a location 5cm above the floor surface are summarized.
[0044]
[Table 5]

[0045]
[Table 5] shows the location 15 cm horizontally from the floor at a position 1 m directly below the ceiling, and the location 30 cm horizontally from the floor at a position 1.7 m below the floor. This is a summary of the wind speed measured at a location 40 cm horizontally away from the floor surface at a position of 5 cm above.
As the used wind speed measuring device, for example, measurement was performed using a wind speed / temperature / humidity meter of Model Model 6511 manufactured by Nippon Kanomax Co., Ltd. as in the present embodiment.
[0046]
[Table 6]

[Table 6] summarizes the measurement of noise at a position of 1 m directly below for a conventional blower as shown in Patent Document 1 that is driven by changing the voltage applied to the motor to DC 12V, 10V, and 8V. It is a thing.
As a noise measuring device used, a digital sound level meter of model 3430 manufactured by Hioki Electric Co., Ltd. was used as in the present embodiment.
[0047]
Thus, for example, the blower unit 1 of the present embodiment using the low noise type centrifugal fan 4 in which the blade body 11 is rotationally driven by the high-speed rotation motor M, and the blade using the motor as shown in Patent Document 1, for example. When compared with a conventional blower that aims to obtain a large-capacity wind speed by rotating the body at a low speed, for example, the wind speed discharged from the discharge port of the blower cylinder of the blower is shown in Table 1 and Table 4 above. When the applied voltage is 12V, the frequency of frequent occupants living and acting, for example, at a portion N1 1 m directly below the ceiling surface 2, the blower unit 1 of the present embodiment is 1 .91 (m / s), as shown in Patent Document 1, in the conventional blower, it is 1.58 (m / s) at a position 1 m immediately below the ceiling surface. Therefore, the present embodiment can obtain a higher wind speed than the conventional one, and is suitable for suppressing the generation of noise, and the reach distance is near the floor surface Y with the strong air pressure and the indoor air K with sufficient wind pressure. It was found that the solution could be refluxed efficiently.
[0048]
As for noise, the blower unit 1 of the present embodiment has a ceiling as shown in FIG. 8, for example, when a small motor having a voltage of 12V is used from [Table 3] and [Table 6]. In the point N1 that is 1 m immediately below the surface 2, the first measured value of the noise value is 45.2 (dBA) and the second measured value is 44.2 (dBA). In the conventional blower as shown, the measured value is 52 (dBA). Therefore, it has been found that the noise level is reduced by 7 to 8.2 (dBA) in the present embodiment as compared with the conventional case.
[0049]
Further, in the blower unit 1 of the present embodiment, the mounting plate 18A provided with the holding cylinder portion 18b which is detachably attached to the outer flange portion 6a by, for example, the engaging means 17 and has the sliding curved surface portion 18a on the inside. A mounting base portion 19a having a substantially spherical shape which is slidably incorporated in the holding cylinder portion 18b of the mounting plate 18A in any direction, front and rear, and a jet port portion 19 provided below the mounting base portion 19a. A nozzle 16 serving as a directing portion for directing a blowing direction formed by a holding plate 18B having a stud screwed to the lower side of the mounting plate 18A and holding the mounting base portion 19a slidably is provided in the discharge chamber. 1 is provided at the lower side in FIG. 1, so that even after the blower unit 1 is attached to the ceiling surface 2, in the holding cylinder portion 18 b having the sliding curved surface portion 18. By sliding the mounting base 19a having a spherical shape, the mounting position of the nozzle 16 can be changed in any direction, front and rear, and left and right, so that the blowing direction of the indoor air K discharged from the discharge chamber 6 can be changed to a desired direction. be able to.
[0050]
As in the case of the blower unit 1 of the present embodiment using the centrifugal fan 4, the ceiling height H from the ceiling surface 2 to the floor surface Y as shown in FIG. In a room with a mounting height H 'of 2,980 mm from the lower surface of the blower unit 1 to the floor surface Y of 2,910 mm, the measurement time is 18; 00 to 20; 00 at a set temperature of 30 ° C. During operation, heating is performed, the warm air stays in the vicinity of the ceiling surface 2, and the nozzle 16 serving as the directing portion in the blowing direction of the blower unit 1 is inclined with respect to the mounting plate 18A by an inclination angle α of, for example, 34 °. In this case, [Table 7] and [Table 8] were obtained as a result of wind speed measurement and noise measurement for each location where the indoor air K discharged from the discharge port 6d of the discharge chamber 6 reached.
[0051]
[Table 7] shows the low noise type centrifugal fan 4 as shown in FIG. 1 driven by changing the applied voltage to the motor M to DC 6V, 7V, 8V, 9V, 10V, 11V, 12V. The initial velocity of the indoor air K discharged from the discharge chamber 6 through the nozzle 16 and the ceiling when the nozzle 16 serving as a directing portion is suppressed and the inclination angle α is inclined to the plate 18B by, for example, 34 °. A point N′1 1 m from the surface 2, a point N′2 2 m away, a point N′3 2.5 m away, a point N′4 3 m away, and a point N′5 10 cm directly above the floor Y This is a summary of the wind speed measurements.
[0052]
Table 8 shows the nozzle 16 of the blower unit 1 for the low noise type centrifugal fan 4 that is driven by changing the applied voltage to the motor M to DC 6V, 7V, 8V, 9V, 10V, 11V, 12V. Are measured at a position N1 of 1 m directly below the ceiling surface 2 when the inclination angle α is set to 34 °, for example.
[0053]
[Table 7]

[0054]
[Table 8]

[0055]
Thus, for example, in the blower unit 1 of the present embodiment using the low-noise centrifugal fan 4 in which the blade body 11 is rotationally driven by the high-speed motor M, the nozzle 16 serving as the directing portion for directing the blowing direction is inclined at an angle of inclination. When compared with a conventional blower that aims to obtain a large-capacity wind speed by rotating a blade body at a low speed using a motor as shown in Patent Document 1 when tilted at, for example, 34 ° as α, for example, Regarding the wind speed discharged from the discharge port of the blower cylinder, from [Table 7] and [Table 4] above, when the applied voltage to the motor is 12V, the frequency of the resident living and acting For example, at a location N′1 of 1 m from the ceiling surface 2, the blower unit 1 of the present embodiment is 1.34 (m / s), whereas a conventional blower as shown in Patent Document 1 is used. 1m directly below the ceiling The location is 1.58 (m / s).
Therefore, when comparing the blower unit 1 of the present embodiment in which the blowing direction is changed by inclining the nozzle 16 serving as a directing portion in the blowing direction, and the conventional blower measured at a position 1 m directly below the blower, the present embodiment. However, the noise is 46.0 dB, the noise is reduced, the generation is suppressed, and the reach of the indoor air K is sufficiently high with a sufficiently high blowing pressure. It was found that the room air K can be recirculated efficiently because it extends close to Y.
[0056]
In addition, the cross-sectional shape, the degree of restriction, the length, and the like of the ejection port portion 19 of the nozzle 16 can be appropriately changed according to the application. Therefore, it is convenient to prepare various types of nozzles 16 according to the application and make them compatible.
[0057]
Further, in the blower unit 1 of the present embodiment, for example, a plastic plate made of synthetic resin, aluminum, or the like is easily obtained and easily processed, and the outer shape arranged on the outside is formed in a substantially cylindrical shape. When assembling the large-diameter housing 8 and the discharge chamber 6 formed of the same material as the housing 8 and formed of a small-diameter cylindrical box provided in the housing 8 through the air passage portion 9. The lower edge of the housing 8 is placed on the mounting step 6c provided on the upper surface of the outer periphery of the interval holding piece 6b provided in an appropriate number on the outer periphery of the discharge chamber 6 in the radial direction in this embodiment. The housing 8 is fitted into the discharge chamber 6 in a manner that the intake port P with a predetermined interval L is desired with respect to the plate, or the engaging members 6e, 6e standing on both sides of the interval holding piece are opposed to the inside of the housing 8. Installation The set pieces are assembled by engaging with the engaging pieces 8b, 8b, or screwing a set screw from the outer periphery of the housing 8 into the spacing holding piece 6b, although not shown in the drawing. For this reason, the assembly of the housing 8 and the discharge chamber 6 is facilitated, and the intake chamber 5 for sucking the indoor air K and the discharge chamber 6 for discharging the indoor air K sucked into the blower unit 1 are provided in the housing 8. The provided blower unit 1 can be formed.
[0058]
Further, in the blower unit 1 of the present embodiment, the centrifugal fan 4 is arranged outside the housing 8 having the intake chamber 5 and the discharge chamber 6 inside as described above, for example, as shown in FIG. Although not shown in the drawing, the motor case 12 is rotated in the circumferential direction, and a projecting piece projecting in the circumferential direction on the outer periphery of the motor case 12 is attached to the housing 8. The centrifugal fan 4 can be attached to the outside of the housing 8 by adopting a bayonet system or the like that is detachably locked to a plurality of locking pieces provided concentrically. Therefore, the assembling operation and the disassembling operation of the centrifugal fan 4 can be performed easily and reliably, and maintenance and inspection are facilitated. For example, when the centrifugal fan 4 breaks down, parts can be easily replaced and repaired, and cleaning can be performed easily.
[0059]
Moreover, what is shown in FIG. 10 shows 2nd Embodiment of the low noise type indoor air blower of this invention.
In this embodiment, the overall shape of the housing 8 provided with the opening 30 in at least a part of the lower surface is substantially box-shaped, and the intake chamber 5 is a small chamber provided in the housing 8 via the partition wall 31. The configuration and operation are the same as those of the first embodiment except that the configuration is different from that of the first embodiment in that it is formed in the space between the discharge chamber 6 formed.
[0060]
Moreover, what is shown in FIG.11 and FIG.12 shows 3rd Embodiment of the low noise type indoor air blower of this invention.
In this embodiment, the point that the overall shape of the housing 8 is substantially box-shaped is the same as that of the second embodiment.
However, in this embodiment, the holding collar 40 is formed on the outer edge of the lower surface of the housing 8 to form the opening 41 in the holding collar 40, and the sliding side plate 42 provided at the approximate center in the width direction is the opening. A structure in which the intake chamber 5 is formed in a space between the discharge chamber 6 forming a small chamber by being mounted in the opening 41 so as to be detachable along a guide groove 43 provided inside the portion 41. is doing.
In this manner, the discharge chamber 6 forming a small chamber can be inserted into and removed from the sliding side plate portion 42 along the guide groove 43 in the opening portion 41 provided in the holding collar portion 40 of the housing 8 having an overall box shape. The configuration and operation are the same as those of the second embodiment except that the low noise type indoor blower including the intake chamber 5 and the discharge chamber 6 in the housing 8 is easily assembled and disassembled.
[0061]
Further, FIG. 13 shows a fourth embodiment of the present invention.
In the fourth embodiment, the centrifugal fan 4 has the same configuration as that of the first embodiment, except that the centrifugal fan 4 is mounted in a housing 8 having an intake chamber 5 and a discharge chamber 6 therein. It is an action.
[0062]
In the indoor blower shown in each of the above-described embodiments, the blower unit 1 using the centrifugal fan 4 is shown as a fan. However, the centrifugal fan 4 is used in the intake chamber 5 provided on the inlet side with respect to the fan. Even if the internal loss increases due to the provision of the discharge chamber 6 on the outlet side, the reachable distance from the ceiling surface 2 can be sufficiently extended, strong wind pressure is ensured, and the noise is quiet. This is a typical example, and is not limited thereto. For example, an intake chamber 5 serving as an intake portion provided on the inlet side with respect to the fan, and a discharge chamber 6 serving as a discharge portion. An axial fan provided in the axial direction is also within the scope of the present invention.
[0063]
【The invention's effect】
  The invention according to claim 1 of the present invention is a blower unit attached to a space portion on the back surface of a ceiling surface, which is provided on a fan and an inlet side of the fan, and sucks air that stays in the vicinity of the ceiling surface. And a discharge portion that is provided on the outlet side of the fan and discharges the sucked air into the room, and a sound absorbing material is provided on inner surfaces of the intake chamber that forms the intake portion and the discharge chamber that forms the discharge portion. In the low noise type indoor fan that is attached inside, the fan is:A centrifugal fan or an axial fan that is attached to the outside of the housing having an intake chamber and a discharge chamber inside and is provided so as to be capable of high-speed rotation.The intake chamber provided on the inlet side of the fan in communication with the suction port, and on the outlet side of the fanInsideCommunicatedProvided in the centrifugal directionSince the air passage portion having a substantially rectangular cross section and the discharge chamber of the cylindrical box body communicated via the air passage portion are provided as bent continuous small chambers, the motor used for the blower unit Miniaturization and small capacity can be achieved.
  And even in indoor places where the ceiling height is high and the reach is longThe room air circulates with sufficient wind pressure from 1m below the ceiling surface to the vicinity of the floor surface and from 1m below the ceiling surface to the vicinity of the floor surface in a horizontal direction where the frequency of frequent living and action is high. It is possible to ventilate quickly, reliably and evenly, and the blower itself is formed in a compact outer volume, so the thin design is applied and the space behind the ceiling surface is narrow Even in such a case, the fan can be easily and reliably attached, and the structure is simplified, so that the manufacture and assembly are easy and the manufacturing cost is low.
  In addition, as described above, the fan is a centrifugal fan or an axial flow fan. The fan communicates with the suction port and is provided on the inlet side of the fan.CommunicatedProvided in the centrifugal directionTheSince the air passage portion having a substantially rectangular cross section and the discharge chamber of the cylindrical box communicated via the air passage portion are provided as bent continuous small chambers, the room staying near the ceiling surface Friction with respect to the surface properties of the airflow contact surface such as an intake chamber that sucks in air and a discharge chamber that blows indoor air sucked into the fan through the air passage part, and until the airflow is sucked and discharged Since it is bent in the passage in the direction of the centrifugation of the centrifugal fan 4 in a curved line, wind noise when the fan blades rotate, vibration in the fan, and near the suction port of the intake chamber and the discharge of the discharge chamber If noise occurs during use due to the airflow near the outlet,Generation of noise during use can be reduced.
  The fan is a centrifugal fan or an axial fan,Mounted outside the housingAs a result, fan assembly and disassembly can be performed easily and reliably, making maintenance and inspection easy. For example, if a fan breaks down, parts can be easily replaced and repaired, and cleaning can be done easily. .
[0065]
The invention according to claim 3 of the present invention is characterized in that, in claim 1, the fan is mounted by being incorporated in a housing having an intake chamber and a discharge chamber therein. However, a compact, low-noise indoor fan can be obtained.
[0066]
  Further, the claims of the present invention2According to the invention described in claim 1, in the air intake chamber according to claim 1, the intake chamber has a large-diameter housing formed in a substantially cylindrical shape, and a small-diameter cylindrical box connected to the housing through an air passage portion. It is formed in the outer peripheral space between the body and the discharge chamber, and the claims of the present invention3In the first or second aspect of the present invention, the intake chamber includes: a housing in which an opening is provided in at least a part of the lower side; and a discharge chamber that forms a small chamber provided in the housing via a partition wall. Formed in the space between, and claims of the present invention4According to the invention described in any one of claims 1 to 3, the overall shape of the intake chamber is substantially box-shaped, and a holding collar is formed on the outer edge of the lower surface, and an opening is formed in the holding collar. An intake chamber for sucking indoor air, characterized in that it is formed in a space between the formed housing and a discharge chamber which is removably attached to the opening through a sliding side plate and forms a small chamber. When,Without touching the outer surface of the fan motor case,Several continuous chambers with a discharge chamber that discharges indoor air sucked into the blower unit through the air passage section are not linear but curvedIn the centrifugal direction that is the outlet of the centrifugal fan 4This reduces the generation of noise during use.The
  Moreover,Even indoors with high ceiling height and long reachWide range from 1m directly below the ceiling surface to near the floor surface, and from 1m below the ceiling surface to the floor surface in a horizontal direction, which is frequently used by the residents to live and actWith sufficient wind pressure, the indoor air can be recirculated quickly, reliably and evenly.. Also,The blower itself has a compact outer volume and is designed to be thin, and can be installed easily and reliably even in a narrow installation space behind the ceiling surface. Is easy and the production cost is low.
[0067]
  Further, the claims of the present invention5The invention described in claim 14In any of the above, the sound absorbing material is formed of a porous soft material such as polyurethane foam, polystyrene foam, or sponge, or a fibrous material such as felt or glass fiber. Materials can be procured at low cost, and noise generation during use is reduced.
[0068]
  Further, the claims of the present invention6The invention described in claim 15In any of the above, the outlet of the discharge chamber is provided with a directing portion that directs the blowing direction, and the claims of the present invention7The invention described in claim6In the above, the directing portion is constituted by a nozzle having a variable directing direction, so that the directing portion can be changed in the front / rear and left / right directions even after the blower unit is attached to the ceiling surface. The blowing direction of room air can be changed to a desired direction.
[0069]
  Further, the claims of the present invention8The invention described in claim6Or7In the above, the directing portion is detachably provided in the discharge chamber.9The invention described in claim7The nozzle is detachably attached to the outer flange portion, and has a mounting plate provided with a holding cylinder portion having a sliding curved surface portion inside, and slides in the holding cylinder portion in any direction, front and rear, left and right. Since it is composed of a jet port part provided below a mounting base part having a substantially spherical shape that is freely assembled, and a holding plate that slidably holds the mounting base part and is mounted below the mounting plate, Assembling, replacement, and maintenance of the nozzle become easy, and the cross-sectional shape, throttle condition, length, etc. of the nozzle nozzle can be changed as appropriate according to the application. You can make it compatible.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a first embodiment of a low noise indoor fan of the present invention.
FIG. 2 is a plan view of a housing used in the present embodiment.
FIG. 3 is a cross-sectional view taken along the line AA of FIG.
FIG. 4 is a plan view of a discharge chamber used in the present embodiment.
FIG. 5 is a cross-sectional view taken along line BB in FIG.
FIG. 6 is a plan view of a nozzle used in the present embodiment.
FIG. 7 is a cross-sectional view taken along the line CC.
FIG. 8 is a cross-sectional view showing a usage state at the time of measurement of wind speed and noise of the low noise type indoor blower of the present embodiment.
FIG. 9 is an explanatory side view for measuring the wind speed and noise at each location where indoor air reaches when the nozzle is tilted as a directing portion in the blowing direction in the present embodiment.
FIG. 10 is a cross-sectional view showing a second embodiment of the low noise indoor fan of the present invention.
FIG. 11 is a perspective view showing a third embodiment of the low-noise indoor fan of the present invention as seen from the back side.
FIG. 12 is a perspective view showing a third embodiment of the low noise indoor fan of the present invention.
[Explanation of symbols]
1 Blower unit
2 Ceiling
2A Ceiling panel
3 spaces
4 Centrifugal fan
5 Intake chamber
6 Discharge chamber
7 Sound absorbing material
8 Housing
9 Windway

Claims (9)

A fan unit attached to a space portion on the back surface of the ceiling surface, provided on a fan, an inlet side of the fan, an intake portion for sucking air staying in the vicinity of the ceiling surface, and an outlet side of the fan, In a low noise type indoor blower comprising a discharge portion that discharges the sucked air into the room, and a sound absorbing material is attached to the inner surfaces of the intake chamber forming the intake portion and the discharge chamber forming the discharge portion,
The fan is a centrifugal fan or an axial fan that is attached to the outside of a housing having an intake chamber and a discharge chamber inside and is provided so as to be rotatable at high speed, and is provided on the inlet side of the fan in communication with a suction port. The intake chamber, the air passage portion having a substantially rectangular cross section provided in the centrifugal direction and communicated with the outlet side of the fan, and the discharge chamber of the cylindrical box body communicated through the air passage portion Because it is provided as each bent continuous small room, it is frequently used by the resident to live and act from 1m below the ceiling surface to near the floor surface, and from 1m directly below the ceiling surface to the floor surface. A low noise type indoor blower characterized in that sufficient wind pressure is obtained in the horizontal direction with respect to the vicinity and low noise is suitable . The intake chamber is an outer peripheral space between a large-diameter housing formed in a substantially cylindrical shape and a discharge chamber made up of a small-diameter cylindrical box connected to the housing via an air passage portion. The low noise type indoor fan according to claim 1 , wherein the low noise indoor fan is formed. The intake chamber is formed in a space between a housing provided with an opening in at least a part of the lower side and a discharge chamber forming a small chamber provided in the housing via a partition wall. Item 3. The low noise indoor fan according to Item 1 or 2 . The intake chamber is generally box-shaped, and a holding collar is formed on the outer edge of the lower surface, and an opening is formed in the holding collar, and can be inserted and removed through a sliding side plate in the opening. low-noise indoor air blower according to any one of claims 1 3, characterized in that it is formed in the space between the mounted and discharge chamber forming a chamber to. The sound absorbing material, polyurethane foam, polystyrene foam, porous soft material such as sponge or felt, any one of claims 1 -4, characterized in that it is formed by a fibrous material such as glass fiber The low noise type indoor fan according to claim 1. The low noise type indoor blower according to any one of claims 1 to 5 , wherein a directing portion that directs a blowing direction is provided at an outlet of the discharge chamber. The low noise type indoor fan according to claim 6, wherein the directing portion is configured by a nozzle having a variable directivity direction. The low noise type indoor fan according to claim 6 or 7, wherein the directing portion in the blowing direction is detachably provided in the discharge chamber. The nozzle is detachably attached to the outer flange portion, and a mounting plate provided with a holding cylinder portion having a sliding curved surface portion on the inside, and can be slid in any direction in the front and rear, left and right within the holding cylinder portion. claim 7 and spout portion provided below the mounting base having a substantially spherical shape, wherein the mounting base portion slidably held by comprising a pressure plate mounted below the mounting plate incorporated into The low noise indoor blower described.

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