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JP2014142080A - Air conditioner drainage structure - Google Patents

Air conditioner drainage structure Download PDF

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Publication number
JP2014142080A
JP2014142080A JP2013009189A JP2013009189A JP2014142080A JP 2014142080 A JP2014142080 A JP 2014142080A JP 2013009189 A JP2013009189 A JP 2013009189A JP 2013009189 A JP2013009189 A JP 2013009189A JP 2014142080 A JP2014142080 A JP 2014142080A
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Prior art keywords
air passage
drain pan
wall
extension
extension wall
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JP2013009189A
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JP6092637B2 (en
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Yuji Uehara
雄二 上原
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Sharp Corp
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Sharp Corp
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Priority to JP2013009189A priority Critical patent/JP6092637B2/en
Priority to CN201490000370.9U priority patent/CN204987408U/en
Priority to PCT/JP2014/050897 priority patent/WO2014115662A1/en
Publication of JP2014142080A publication Critical patent/JP2014142080A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/22Means for preventing condensation or evacuating condensate
    • F24F13/222Means for preventing condensation or evacuating condensate for evacuating condensate

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)
  • Air-Conditioning For Vehicles (AREA)

Abstract

PROBLEM TO BE SOLVED: To suppress the influence of air due to a fan in an air passage and suppress entry of drain water into the air passage.SOLUTION: A conduit 34 introducing drain water in a rear drain pan to a front drain pan is provided to be lateral to an air passage, and a drop portion 36 on a front end of the conduit 34 is located above the front drain pan. A rear extension wall 41 extending downward from a front extension wall 40 and the front end of the conduit 34 by forward extension of an air-passage-side sidewall 35b of the conduit 34 is formed around the drop portion 36. Each of the extension walls 40 and 41 surrounds the drop portion 36 and cuts off air near the drop portion 36 generated if a pressure of the air passage is negative. The drain water flowing from the drop portion 36 drops along the respective extension walls 40 and 41.

Description

本発明は、前後にドレンパンを有する空気調和機の排水構造に関する。   The present invention relates to a drainage structure of an air conditioner having a drain pan at the front and rear.

従来、この種の空気調和機の室内機における排水構造として、特許文献1には、後ケースと前ケースを備えたキャビネット内に、前側熱交換器と背面側熱交換器とで側面視逆V字状をなすように形成された室内熱交換器が配設され、この室内熱交換器の逆V字状空間内にクロスフローファンが配設され、前側熱交換器に生じたドレン水を受け取る前側ドレンパンが前側熱交換器の下方に配設され、背面熱交換器に生じたドレン水を受け取る背面側ドレンパンが後ケースと一体に形成された状態で背面側熱交換器の下方に配設され、背面側ドレンパンから前側ドレンパンにドレン水を導く導水路が形成された排水構造が開示されている。   Conventionally, as a drainage structure in an indoor unit of this type of air conditioner, Patent Document 1 discloses that a cabinet with a rear case and a front case includes a front side heat exchanger and a rear side heat exchanger with a reverse side view V. An indoor heat exchanger formed in a letter shape is disposed, and a cross flow fan is disposed in an inverted V-shaped space of the indoor heat exchanger to receive drain water generated in the front heat exchanger. A front drain pan is disposed below the front heat exchanger, and a rear drain pan that receives drain water generated in the rear heat exchanger is disposed below the rear heat exchanger in a state of being integrally formed with the rear case. A drainage structure is disclosed in which a water conduit that guides drain water from the back side drain pan to the front side drain pan is formed.

特開2002−98347号公報JP 2002-98347 A

ところで、この種の排水構造においては、導水路がキャビネット内の吸込口から吹出口に至る空気通路に隣接し、背面側ドレンパンに設けられた導水路と前側ドレンパンとの合わせ目には隙間が存在し、空気流路に連通している。空気通路内のファンが駆動されると、空気通路内が負圧になり、導水路の先端から前側ドレンパンに滴下するドレン水がこの隙間から空気通路側に吸引される。空気通路内にドレン水が侵入し、ドレン水が吹出口を経て室内に放出される可能性があった。   By the way, in this type of drainage structure, the water conduit is adjacent to the air passage from the inlet to the outlet in the cabinet, and there is a gap at the joint between the water conduit provided on the back side drain pan and the front drain pan. And communicated with the air flow path. When the fan in the air passage is driven, negative pressure is generated in the air passage, and drain water dripping from the leading end of the water guide passage to the front drain pan is sucked from the gap to the air passage side. There is a possibility that drain water enters the air passage and is discharged into the room through the outlet.

特に、背面側に発生したドレン水の量が多い場合、導水路から落下するドレン水は下方に向かうことなく、空気通路内に吸引され、吹出口から吹き出される可能性が高くなる。   In particular, when the amount of drain water generated on the back side is large, the drain water falling from the water conduit does not go downward, but is likely to be sucked into the air passage and blown out from the outlet.

ドレン水が空気通路内に侵入するのを防止するために、隙間を塞ぐように新たにシール材を介在させる必要があり、部品点数が増加するおそれがあった。   In order to prevent drain water from entering the air passage, it is necessary to newly insert a sealing material so as to close the gap, which may increase the number of parts.

また、空気通路内のファンの影響を少なくするために、導水路をファンから遠ざけるように構成することが可能である。このように導水路を空気通路から離す設計にした場合、その分だけ余分なスペースが必要となり、室内機が大型化する、あるいは空気通路が狭くなり、送風性能が低下するおそれがあった。   Further, in order to reduce the influence of the fan in the air passage, it is possible to configure the water conduit so as to be away from the fan. When the water guide path is designed to be separated from the air passage in this way, an extra space is required, and the indoor unit becomes larger or the air passage becomes narrower, which may reduce the blowing performance.

本発明は、上記に鑑み、空気通路内のファンによる風の影響を抑え、空気通路内へのドレン水の侵入を防ぐことができる空気調和機の排水構造の提供を目的としている。   In view of the above, an object of the present invention is to provide a drainage structure of an air conditioner that can suppress the influence of wind by a fan in an air passage and can prevent drain water from entering the air passage.

本発明に係る空気調和機では、キャビネット内の空気通路に前側熱交換器および後側熱交換器が配設され、両熱交換器で囲まれた空間内にファンが配設され、前側熱交換器で生じたドレン水を受ける前側ドレンパンが前側熱交換器の下方に配置され、後側熱交換器に生じたドレン水を受ける後側ドレンパンが後側熱交換器の下方に配置され、後側ドレンパンのドレン水を前側ドレンパンに導く導水路が空気通路の側方に設けられ、導水路の前端の滴下部が前側ドレンパンの上方に位置する。空気通路が負圧になったときに滴下部の近傍に生じる風の流れ方向において風を遮るように、複数の延長壁が滴下部の周囲に形成される。   In the air conditioner according to the present invention, the front heat exchanger and the rear heat exchanger are disposed in the air passage in the cabinet, the fan is disposed in the space surrounded by both heat exchangers, and the front heat exchange A front drain pan that receives drain water generated in the condenser is disposed below the front heat exchanger, and a rear drain pan that receives drain water generated in the rear heat exchanger is disposed below the rear heat exchanger, A water conduit that guides the drain water of the drain pan to the front drain pan is provided on the side of the air passage, and a dripping portion at the front end of the water conduit is located above the front drain pan. A plurality of extension walls are formed around the dripping portion so as to block the wind in the flow direction of the wind generated in the vicinity of the dripping portion when the air passage becomes negative pressure.

複数の延長壁が滴下部の周囲を取り囲むことにより、滴下部の周囲を流れる風が遮られ、滴下部から滴下するドレン水が風によって流されることを阻止できる。   When the plurality of extension walls surround the dripping part, the wind flowing around the dripping part is blocked, and the drain water dripping from the dripping part can be prevented from flowing by the wind.

空気通路の側壁と前側ドレンパンとの間に隙間があり、隙間と滴下部との間に各延長壁が設けられるようにしてもよい。ファンの駆動により、滴下部の周囲では、隙間に向かう風が生じる。しかし、延長壁が隙間と滴下部との間にあるので、隙間に向かう風の流れが変わり、ドレン水が隙間に引き寄せられにくくなる。   There may be a gap between the side wall of the air passage and the front drain pan, and each extension wall may be provided between the gap and the dropping portion. By driving the fan, wind toward the gap is generated around the dropping portion. However, since the extension wall is between the gap and the dripping portion, the flow of wind toward the gap changes, and the drain water is less likely to be drawn into the gap.

複数の延長壁は、少なくとも滴下部よりも空気通路側および後側にそれぞれ位置するようにしてもよい。滴下部の空気通路側の延長壁として、導水路の空気通路側の側壁が前方に延長されることにより前方延長壁が形成され、滴下部の後側の延長壁として、導水路の前端から下方に向かって延びた後方延長壁が形成されるようにしてもよい。ドレン水は滴下部から各延長壁を伝って落下し、落下するドレン水を隙間から遠ざけることができる。これにより、ドレン水は風の影響を受けにくくなる。   The plurality of extension walls may be positioned on at least the air passage side and the rear side of the dropping portion, respectively. As an extension wall on the air passage side of the dripping part, a front extension wall is formed by extending the side wall on the air passage side of the conduit to the front, and as an extension wall on the rear side of the dropping part, from the front end of the conduit A rear extension wall may be formed extending toward. The drain water falls from the dropping portion along each extension wall, and the drain water that falls can be kept away from the gap. Thereby, drain water becomes difficult to receive the influence of a wind.

導水路の空気通路側の側壁に、下方に向かって延びる少なくとも1つの下方延長壁が形成されるようにしてもよい。ドレン水が各延長壁を越えて回り込んできても、下方延長壁によってドレン水が空気通路側に向かうことを阻止できる。   You may make it form the at least 1 downward extension wall extended toward the downward direction in the side wall by the side of the air passage of a water conduit. Even if the drain water wraps around each extension wall, the lower extension wall can prevent the drain water from moving toward the air passage.

本発明によると、滴下部の周囲に形成された複数の延長壁が風を遮ることにより、ドレン水が風に流されて空気通路に侵入することを防止できる。   According to the present invention, it is possible to prevent drain water from flowing into the air passage and entering the air passage by the plurality of extension walls formed around the dropping portion blocking the wind.

本発明の空気調和機の室内機の斜視図The perspective view of the indoor unit of the air conditioner of this invention 室内機の正面図Front view of indoor unit 図2のA−A断面図AA sectional view of FIG. ドレンパンユニットが取り付けられた背面板の正面図Front view of back plate with drain pan unit attached ドレンパンユニットが取り付けられた背面板の斜視図Perspective view of back plate with drain pan unit attached ドレンパンユニットが取り付けられた背面板の断面図Sectional view of the back plate with the drain pan unit attached 背面板の正面図および導水路の滴下部の拡大図Front view of back plate and enlarged view of dripping part of waterway 背面板の斜視図および導水路の滴下部の拡大斜視図Perspective view of back plate and enlarged perspective view of dripping portion of water conduit 延長壁が設けられた滴下部の周囲の風の流れを示す図The figure which shows the flow of the wind around the dripping part provided with the extension wall

本発明に係る空気調和機は、セパレート型であり、室内機と室外機都から構成される。室内機には、室内熱交換器およびファンが内装され、室外機には、圧縮機、四方弁、室外熱交換器、絞り装置が内装される。室内機と室外機とが冷媒配管によって接続されて冷凍サイクルが形成され、冷房、暖房、除湿などの各種運転モードが実行される。   The air conditioner according to the present invention is a separate type and includes an indoor unit and an outdoor unit. The indoor unit includes an indoor heat exchanger and a fan, and the outdoor unit includes a compressor, a four-way valve, an outdoor heat exchanger, and a throttle device. The indoor unit and the outdoor unit are connected by a refrigerant pipe to form a refrigeration cycle, and various operation modes such as cooling, heating, and dehumidification are executed.

室内機は、図1〜図4に示すように、キャビネット1の天面に室内空気を吸込む吸込口2が形成され、キャビネット1の前面下部の開口に吹出口3が形成されている。キャビネット1の内部には、吸込口2から吹出口3に至る空気通路4が形成され、この空気通路4に熱交換器5とファン6とが配置されている。なお、キャビネット1を正面から見て幅方向を左右方向とし、キャビネット1の奥行き方向を前後方向とし、キャビネット1の高さ方向を上下方向とする。   As shown in FIGS. 1 to 4, the indoor unit has a suction port 2 for sucking room air in the top surface of the cabinet 1, and a blower outlet 3 in the opening at the lower front of the cabinet 1. An air passage 4 extending from the suction port 2 to the air outlet 3 is formed inside the cabinet 1, and a heat exchanger 5 and a fan 6 are disposed in the air passage 4. When the cabinet 1 is viewed from the front, the width direction is the left-right direction, the depth direction of the cabinet 1 is the front-rear direction, and the height direction of the cabinet 1 is the vertical direction.

キャビネット1は、図1に示すように、背面板7と前面パネル8とから構成され、背面板7に前面パネル8が着脱可能に取り付けられる。背面板7は、前面開放の箱型に形成され、背面側は室内の壁面に取り付けることができるよう平坦面とされる。また、背面板7の前側には、湾曲面状の後案内壁9が形成され、この壁9が空気通路4の下壁となる。背面板7の天面には、吸込口グリル10が形成され、吸込口2の後側部分を構成する。   As shown in FIG. 1, the cabinet 1 includes a back plate 7 and a front panel 8, and the front panel 8 is detachably attached to the back plate 7. The back plate 7 is formed in a box shape with an open front, and the back side is a flat surface that can be attached to a wall surface in the room. Further, a curved rear guide wall 9 is formed on the front side of the back plate 7, and this wall 9 becomes the lower wall of the air passage 4. A suction port grill 10 is formed on the top surface of the back plate 7 and constitutes a rear portion of the suction port 2.

前面パネル8は、背面側が開放した箱型形状に形成され、その前面の開口を覆うように前カバー11が開閉可能に配置される。キャビネット1内に、フィルタ12を清掃するフィルタ清掃ユニット13が設けられ、前カバー11が開くことにより、フィルタ12を着脱することができる。   The front panel 8 is formed in a box shape with the back side open, and the front cover 11 is disposed so as to be openable and closable so as to cover the opening on the front surface. A filter cleaning unit 13 for cleaning the filter 12 is provided in the cabinet 1, and the filter 12 can be attached and detached by opening the front cover 11.

前面パネル8の天面には、吸込口グリル14が形成される。この吸込口グリル14と背面板7の吸込口グリル10とにより吸込口2が形成される。吸込口グリル10,14の裏面側にフィルタ12が配置され、空気通路4においてフィルタ12よりも下流側に熱交換器5が配置される。熱交換器5は、前面パネル8側に位置する前側熱交換器5aと、背面板7側に位置する背面側熱交換器(後側熱交換器)5bとからなり、両熱交換器5a,5bが側面視で逆V字形に配置される。空気通路4において熱交換器5よりも下流側に、ファン6が熱交換器5に囲まれて配置される。   A suction grill 14 is formed on the top surface of the front panel 8. The suction port 2 is formed by the suction port grill 14 and the suction port grill 10 of the back plate 7. The filter 12 is disposed on the back side of the inlet grilles 10 and 14, and the heat exchanger 5 is disposed on the downstream side of the filter 12 in the air passage 4. The heat exchanger 5 includes a front heat exchanger 5a located on the front panel 8 side and a back side heat exchanger (rear side heat exchanger) 5b located on the back plate 7 side. 5b is arranged in an inverted V shape in a side view. In the air passage 4, the fan 6 is disposed on the downstream side of the heat exchanger 5 and surrounded by the heat exchanger 5.

図3〜6に示すように、キャビネット1に、ドレンパンおよび吹出口3を有するドレンパンユニット20が着脱可能に設けられる。ドレンパンユニット20は、背面板7の前側に取り付けられ、前面パネル8の前面下部の開口に嵌め込まれる。ドレンパンユニット20は筒状に形成され、中央の中空部分が吹出口3とされ、吹出口3が空気通路4に連通する。吹出口3の前方に回動可能な横ルーバ21が設けられ、横ルーバ21の後方に左右方向に揺動可能な複数の縦ルーバ22が設けられる。横ルーバ21の回動により、吹出口3が開閉される。   As shown to FIGS. 3-6, the drain pan unit 20 which has the drain pan and the blower outlet 3 is provided in the cabinet 1 so that attachment or detachment is possible. The drain pan unit 20 is attached to the front side of the back plate 7 and is fitted into the opening at the lower front of the front panel 8. The drain pan unit 20 is formed in a cylindrical shape, the central hollow portion serves as the air outlet 3, and the air outlet 3 communicates with the air passage 4. A rotatable horizontal louver 21 is provided in front of the air outlet 3, and a plurality of vertical louvers 22 that can swing in the left-right direction are provided behind the horizontal louver 21. As the lateral louver 21 rotates, the air outlet 3 is opened and closed.

吹出口3の下壁は、背面板7の後案内壁9に連通して、空気通路4の下壁の一部となる。吹出口3の上壁の後側はファン6に対向し、空気通路4の上壁となる。背面板7に、左右一対の側壁23、24が前方に向かって突出するように形成され、前面パネル8にも、左右一対の側壁が後方に向かって形成され、背面板7の側壁23.24と前面パネル8の側壁とが合わさることにより、空気通路4の上流部分の左右の側壁が形成される。また、吹出口3の左右の側壁は、背面板7の側壁23,24および前面パネル8の側壁に連なり、空気通路4の下流部分の側壁となる。   The lower wall of the air outlet 3 communicates with the rear guide wall 9 of the back plate 7 and becomes a part of the lower wall of the air passage 4. The rear side of the upper wall of the air outlet 3 faces the fan 6 and becomes the upper wall of the air passage 4. A pair of left and right side walls 23, 24 are formed on the back plate 7 so as to protrude forward, and a pair of left and right side walls are also formed on the front panel 8, and the side walls 23 .24 of the back plate 7 are formed. And the side wall of the front panel 8 are combined to form the left and right side walls of the upstream portion of the air passage 4. Further, the left and right side walls of the air outlet 3 are connected to the side walls 23 and 24 of the back plate 7 and the side walls of the front panel 8, and become the side walls of the downstream portion of the air passage 4.

ファン6はクロスフローファンであって、左右両側に回転軸が設けられている。ファン6の左右の回転軸は、空気通路4の上流部分の左右の側壁に軸受25,26を介して回転可能にそれぞれ支持される。一側の回転軸の軸端にファンモータ27が連結される。なお、空気通路4の左右方向の一側には、電装ボックスが設置される。   The fan 6 is a cross flow fan, and is provided with rotating shafts on both the left and right sides. The left and right rotating shafts of the fan 6 are rotatably supported on the left and right side walls of the upstream portion of the air passage 4 via bearings 25 and 26, respectively. A fan motor 27 is connected to the shaft end of the one rotation shaft. An electrical box is installed on one side of the air passage 4 in the left-right direction.

ドレンパンユニット20の前側は、前側熱交換器5aの下方に位置し、ドレンパンユニット20の前側の上面に、前側ドレンパン30が形成される。前側ドレンパン30は、左右方向に長い皿状に形成される。前側ドレンパン30の内面には断熱材31が貼られている。前側ドレンパン30の左右方向の幅は、空気通路4の左右方向の幅よりも大とされ、前側ドレンパン30の左右両端は、空気通路4の左右の側壁よりも外側に位置している。   The front side of the drain pan unit 20 is located below the front heat exchanger 5a, and a front drain pan 30 is formed on the upper surface of the front side of the drain pan unit 20. The front drain pan 30 is formed in a dish shape that is long in the left-right direction. A heat insulating material 31 is attached to the inner surface of the front drain pan 30. The width of the front drain pan 30 in the left-right direction is larger than the width of the air passage 4 in the left-right direction, and the left and right ends of the front drain pan 30 are located outside the left and right side walls of the air passage 4.

前側ドレンパン30の後側は少し凹んで低くなっており、左右の両端にドレン水を排出するための排水口32がそれぞれ形成されている。左右いずれか一方の排水口32に排水ホースが接続され、排水ホースを通じてキャビネット1の外部にドレン水が排出される。   The rear side of the front drain pan 30 is slightly recessed and lowered, and drainage ports 32 for discharging drain water are formed at both left and right ends, respectively. A drain hose is connected to either the left or right drain port 32, and drain water is discharged to the outside of the cabinet 1 through the drain hose.

また、図3に示すように、背面側熱交換器5bの下方に後側ドレンパン33が設けられる。後側ドレンパン33は、背面板7に一体的に形成され、前側ドレンパン30と同様に左右方向に長い皿状に形成される。後側ドレンパン33は、前側ドレンパン30よりも高い位置にある。   Further, as shown in FIG. 3, a rear drain pan 33 is provided below the back side heat exchanger 5b. The rear drain pan 33 is formed integrally with the back plate 7 and is formed in a dish shape that is long in the left-right direction, like the front drain pan 30. The rear drain pan 33 is located higher than the front drain pan 30.

図6〜8に示すように、後側ドレンパン33のドレン水を前側ドレンパン30に導く導水路34が設けられる。導水路34は、空気通路4の他側の側方に位置し、背面板7に一体的に形成される。導水路34は、空気通路4の他側の側壁に沿って形成され、左右一対の側壁35a,35bにより樋状に形成される。外側寄りに位置する他側の側壁35aは、鉛直に形成され、空気通路側に位置する一側の側壁35bは、傾斜して形成される。一側の側壁35bの下端が他側の側壁35aの下端につながっている。一側の側壁35bは、背面板7に形成された空気通路4の側壁23に一体的に形成される。なお、導水路34の樋形状は、上記のような角形に限らず、U形、V形、J形などであってもよい。   As shown in FIGS. 6 to 8, a water conduit 34 that guides the drain water of the rear drain pan 33 to the front drain pan 30 is provided. The water conduit 34 is located on the other side of the air passage 4 and is formed integrally with the back plate 7. The water conduit 34 is formed along the other side wall of the air passage 4 and is formed in a bowl shape by a pair of left and right side walls 35a and 35b. The other side wall 35a located on the outer side is formed vertically, and the one side wall 35b located on the air passage side is formed to be inclined. The lower end of the one side wall 35b is connected to the lower end of the other side wall 35a. One side wall 35 b is formed integrally with the side wall 23 of the air passage 4 formed in the back plate 7. In addition, the eaves shape of the water conduit 34 is not limited to the square shape as described above, but may be a U shape, a V shape, a J shape, or the like.

導水路34は、後側から前側に向かって低くなり、導水路34の前端が前側ドレンパン30の他側の上方に位置する。導水路34の前端が滴下部36とされ、滴下部36は、前側ドレンパン30の上方に位置して、後側ドレンパン33から流れてきたドレン水が滴下部36から前側ドレンパン30に落下する。前側ドレンパン30の後側における空気通路4の側壁よりも外側の部分が、後側ドレンパン33からのドレン水を受ける合流部37とされ、合流部37は滴下部36の直下に位置する。   The water conduit 34 is lowered from the rear side toward the front side, and the front end of the water conduit 34 is located above the other side of the front drain pan 30. The front end of the water conduit 34 is a dropping unit 36, and the dropping unit 36 is located above the front drain pan 30, and the drain water flowing from the rear drain pan 33 falls from the dropping unit 36 to the front drain pan 30. A portion outside the side wall of the air passage 4 on the rear side of the front drain pan 30 is a joining portion 37 that receives drain water from the rear drain pan 33, and the joining portion 37 is located immediately below the dropping portion 36.

ところで、空気通路4の他側の側壁は、ファン6を着脱するために分割できる。背面板7、前側パネル8およびドレンパンユニット20のそれぞれの側壁が当接して、1つの側壁が形成される。そのため、背面板7にドレンパンユニット20が取り付けられたとき、図9に示すように、ドレンパンユニット20の吹出口3の側壁38と背面板7の側壁23とが対向し、吹出口の側壁38の上縁と背面板7の側壁23の下縁との間に隙間39が前後方向にわたってできる。この隙間39は、ファン6がある空気通路4に面し、隙間39を通じて空気通路4と前側ドレンパン30とが連通する。そのため、ファン6が駆動されると、空気通路4が負圧になる。前側ドレンパン30の空気が隙間39から空気通路4に吸引され、導水路34の滴下部36の近傍に隙間39に向かう風が生じる。この風により、滴下部36から落ちた水滴が隙間に吸い込まれて空気通路4に侵入する。これを防ぐために滴下部36の周囲に、風を遮る延長壁が複数設けられる。   By the way, the side wall on the other side of the air passage 4 can be divided in order to attach and detach the fan 6. The side walls of the back plate 7, the front panel 8, and the drain pan unit 20 come into contact with each other to form one side wall. Therefore, when the drain pan unit 20 is attached to the back plate 7, the side wall 38 of the outlet 3 of the drain pan unit 20 and the side wall 23 of the back plate 7 face each other as shown in FIG. A gap 39 is formed between the upper edge and the lower edge of the side wall 23 of the back plate 7 in the front-rear direction. The gap 39 faces the air passage 4 where the fan 6 is located, and the air passage 4 and the front drain pan 30 communicate with each other through the gap 39. Therefore, when the fan 6 is driven, the air passage 4 becomes negative pressure. Air in the front drain pan 30 is sucked into the air passage 4 from the gap 39, and wind toward the gap 39 is generated in the vicinity of the dripping portion 36 of the water conduit 34. Due to this wind, water drops that have dropped from the dropping section 36 are sucked into the gap and enter the air passage 4. In order to prevent this, a plurality of extension walls that block the wind are provided around the dropping portion 36.

滴下部36の近傍では、側方にある隙間39に直接向かう左右方向の風と後方に向かう前後方向の風が生じる。なお、滴下部36の前方の空間は、前側ドレンパン30を通じて空気通路4に連通しており、空気通路4からの空気が流れてくる。そのため、空気通路4に向かう風は生じず、水滴が前方に向かうことはない。   In the vicinity of the dripping portion 36, a left-right wind that goes directly to the gap 39 on the side and a front-rear wind that goes backward are generated. Note that the space in front of the dropping portion 36 communicates with the air passage 4 through the front drain pan 30, and the air from the air passage 4 flows. Therefore, the wind which goes to the air path 4 does not arise, and a water droplet does not go ahead.

第1実施例の延長壁として、滴下部36の前方に位置する前方延長壁40、滴下部36の後方に位置する後方延長壁41、滴下部36の下方に位置する2つの下方延長壁42、43が設けられ、各延長壁40,41,42、43は、隙間39と滴下部36との間にある。   As extension walls of the first embodiment, a front extension wall 40 located in front of the dropping part 36, a rear extension wall 41 located behind the dropping part 36, two lower extension walls 42 located below the dropping part 36, 43 is provided, and each of the extension walls 40, 41, 42, 43 is located between the gap 39 and the dropping part 36.

前方延長壁40は、導水路34の一側の側壁35bを前方に延ばして形成され、導水路34の他側の側壁35aよりも前側に突出している。傾斜して形成された前方延長壁40の下端は、滴下部36よりも下方かつ他側の側壁35aよりも外側に位置する。前方延長壁40は、滴下部36の空気通路側の側方に位置して、滴下部36から側方に向かう風を遮る。   The front extension wall 40 is formed by extending a side wall 35b on one side of the water conduit 34 forward, and projects forward from the side wall 35a on the other side of the water conduit 34. The lower end of the front extension wall 40 formed to be inclined is located below the dropping portion 36 and outside the other side wall 35a. The front extension wall 40 is located on the side of the dripping portion 36 on the side of the air passage, and blocks wind from the dripping portion 36 toward the side.

後方延長壁41は、他側の側壁35aの前端に位置して、側壁35aから左右方向において外側に向かって突出するように形成されるとともに上下方向に長く形成される。後方延長壁41の上端は滴下部36の下端よりも高い位置にあり、後方延長壁41の下端は滴下部36の下端よりも低い位置にある。前方延長壁40は後方延長壁41の前側に位置し、両延長壁40,41は一体的に形成される。後方延長壁41は、滴下部36から後方に回り込む風を遮る。   The rear extension wall 41 is located at the front end of the other side wall 35a, is formed to protrude outward in the left-right direction from the side wall 35a, and is formed long in the up-down direction. The upper end of the rear extension wall 41 is at a position higher than the lower end of the dropping part 36, and the lower end of the rear extension wall 41 is at a position lower than the lower end of the dropping part 36. The front extension wall 40 is located on the front side of the rear extension wall 41, and the extension walls 40, 41 are integrally formed. The rear extension wall 41 blocks the wind that flows backward from the dripping portion 36.

下方延長壁42、43は、前後方向に沿って形成されるとともに前方延長壁40に一体的に形成される。第1の下方延長壁42は、空気通路4から離れて位置し、前方延長壁40の下端から下方に向かって延びるように形成されるとともに、後方延長壁41の空気通路側の側端から前方に延びるように形成される。第1の下方延長壁42の下端は、前側から後側に向かって斜め下がりに形成される。   The lower extension walls 42 and 43 are formed along the front-rear direction and are formed integrally with the front extension wall 40. The first lower extension wall 42 is located away from the air passage 4, is formed to extend downward from the lower end of the front extension wall 40, and forward from the side end of the rear extension wall 41 on the air passage side. Is formed to extend. The lower end of the first downward extending wall 42 is formed to be inclined downward from the front side to the rear side.

第2の下方延長壁43は、前方延長壁40の裏面から下方に向けて突出するように形成され、隙間39に沿って前後方向に長く形成される。第2の下方延長壁43は、空気通路4の側壁の近くに位置し、隙間39に近接する。第2の下方延長壁43の下端は、左右方向の外側に向かって斜め下がりに形成される。   The second lower extension wall 43 is formed so as to protrude downward from the back surface of the front extension wall 40, and is formed long in the front-rear direction along the gap 39. The second downward extension wall 43 is located near the side wall of the air passage 4 and is close to the gap 39. The lower end of the second downward extending wall 43 is formed to be inclined downward toward the outer side in the left-right direction.

各下方延長壁42,43は、空気通路側に向かう風を遮る。特に、第1の下方延長壁42は前方延長壁40の下端を回り込んで隙間に向かう風を遮る。第2の下方延長壁43は隙間39に流れ込む風を遮る。   Each downward extension wall 42 and 43 blocks the wind which goes to the air passage side. In particular, the first lower extension wall 42 wraps around the lower end of the front extension wall 40 and blocks the wind toward the gap. The second downward extending wall 43 blocks the wind flowing into the gap 39.

上記構成において、空気調和機の運転により、ファン6が駆動されると、ファン6の周辺の空気通路4が負圧になる。このとき、空気通路4の外部の空気が隙間39から空気通路4内に吸い込まれる。これにより、隙間39の近くにある滴下部36の周囲では、隙間39に向かう風が生じる。   In the above configuration, when the fan 6 is driven by the operation of the air conditioner, the air passage 4 around the fan 6 becomes negative pressure. At this time, air outside the air passage 4 is sucked into the air passage 4 from the gap 39. As a result, a wind toward the gap 39 is generated around the dripping portion 36 near the gap 39.

そして、後側ドレンパン33に溜まったドレン水は、導水路34を通って、滴下部36に達する。滴下部36から落下するドレン水は、各延長壁40,41、42に沿って滴り落ちる。ドレン水は、風の影響を受けずに前側ドレンパン30に溜まる。   The drain water accumulated in the rear drain pan 33 passes through the water conduit 34 and reaches the dripping portion 36. The drain water falling from the dropping part 36 drops along the extended walls 40, 41, 42. The drain water is collected in the front drain pan 30 without being affected by the wind.

具体的には、滴下部36から流れ出たドレン水は、前方延長壁40および後方延長壁41を伝って下方に流れ、さらに第1の下方延長壁42および後方延長壁41を伝って下方に流れる。ドレン水は第1の下方延長壁42の下端および後方延長壁41の下端から落下する。なお、第1の下方延長壁42の下端は後方延長壁41に向かって傾斜しているので、第1の下方延長壁42に沿って流れたドレン水は、後方延長壁41に向かって流れ、ドレン水が集められる。これらの延長壁40,41,42により、ドレン水は滴下部36から離れた位置まで導かれてから滴下する。すなわち、ドレン水は隙間39よりも下方であって、隙間39から遠く離れた位置まで導かれる。   Specifically, the drain water flowing out from the dropping part 36 flows downward through the front extension wall 40 and the rear extension wall 41, and further flows downward through the first lower extension wall 42 and the rear extension wall 41. . The drain water falls from the lower end of the first lower extension wall 42 and the lower end of the rear extension wall 41. In addition, since the lower end of the first lower extension wall 42 is inclined toward the rear extension wall 41, the drain water flowing along the first lower extension wall 42 flows toward the rear extension wall 41, Drain water is collected. By these extension walls 40, 41, 42, the drain water is dripped after being guided to a position away from the dripping portion 36. That is, the drain water is guided to a position below the gap 39 and far from the gap 39.

一方、滴下部36の周囲の風の流れとして、図9に示すように、滴下部36の側方にある隙間39に向かう風は、第1の下方延長壁42に遮られるため、第1の下方延長壁42を回り込んで前方延長壁40の裏面に沿って上方に向かって流れる。しかし、前方延長壁40に沿って流れる風は第2の下方延長壁43によって遮られ、直接隙間39には流れない。また、滴下部36の後方に向かう風は、後方延長壁41を回り込んで斜め上に向かって流れる。このように、複数の延長壁40,41,42が滴下部36の周囲に設けられることにより、延長壁40,41,42がない場合と比べて風の流れが変わる。滴下部36の周囲では、隙間39に向かう風が遮られ、滴下部36から直接隙間39に向かう風がなくなる。すなわち、滴下部36から隙間39までの距離が長くなることにより、空気通路4内の負圧による吸引力を弱めることができる。   On the other hand, as shown in FIG. 9, the wind that flows toward the gap 39 on the side of the dripping portion 36 is blocked by the first downward extending wall 42 as the flow of wind around the dripping portion 36. It flows around the lower extension wall 42 and flows upward along the back surface of the front extension wall 40. However, the wind flowing along the front extension wall 40 is blocked by the second lower extension wall 43 and does not flow directly into the gap 39. Further, the wind toward the rear of the dropping part 36 flows around the rear extension wall 41 and flows obliquely upward. Thus, by providing the plurality of extension walls 40, 41, 42 around the dropping portion 36, the flow of wind changes compared to the case where the extension walls 40, 41, 42 are not provided. Around the dropping part 36, the wind toward the gap 39 is blocked, and the wind directly from the dropping part 36 toward the gap 39 disappears. That is, the suction force due to the negative pressure in the air passage 4 can be weakened by increasing the distance from the dropping part 36 to the gap 39.

したがって、導水路34の滴下部36から流れ出たドレン水は、風の影響を受けずに各延長壁40,41,42の表面を流れ落ちる。そして、ドレン水が各延長壁40,41,42から離れる。各延長壁41,42の下端では、ドレン水は風の影響を受けるが、第1の下方延長壁42および後方延長壁41は鉛直であるので、ドレン水は各延長壁40,41,42の裏面に回り込むことはない。   Therefore, the drain water flowing out from the dripping portion 36 of the water conduit 34 flows down on the surfaces of the extension walls 40, 41, 42 without being affected by the wind. And drain water leaves | separates from each extension wall 40,41,42. At the lower end of each extension wall 41, 42, the drain water is affected by the wind, but since the first lower extension wall 42 and the rear extension wall 41 are vertical, the drain water passes through the extension walls 40, 41, 42. It does not wrap around the back side.

第1の下方延長壁42の下端に達したドレン水は、傾斜した下端に沿って後方延長壁41に向かって流れ、後方延長壁41を流れ落ちたドレン水と合流して、大きな水滴となって落下する。水滴は風に流されるが、各延長壁41,42の下端付近の風は、上方に向かう風であって、隙間39から離れているので、風力も弱い。そのため、水滴は隙間39まで運ばれることなく、自重によって前側ドレンパン30に落下していく。   The drain water that has reached the lower end of the first lower extension wall 42 flows toward the rear extension wall 41 along the inclined lower end, and merges with the drain water that has flowed down the rear extension wall 41 to form large water droplets. Fall. Although the water droplets are caused to flow by the wind, the wind near the lower ends of the extension walls 41 and 42 is the wind directed upward and away from the gap 39, so the wind force is also weak. For this reason, the water drops are not carried to the gap 39 but fall to the front drain pan 30 by their own weight.

このように、滴下部36の周囲に設けられた複数の延長壁40〜43により、隙間39に向かう風が遮られ、導水路34から滴下するドレン水は、各延長壁40〜43に囲まれた中を風に流されることなく前側ドレンパン30に落下する。したがって、ドレン水が風に飛ばされて、隙間39から空気通路4に侵入することを確実に防止できる。   In this way, the wind toward the gap 39 is blocked by the plurality of extension walls 40 to 43 provided around the dripping portion 36, and the drain water dripping from the water conduit 34 is surrounded by the extension walls 40 to 43. The inside falls to the front drain pan 30 without being blown by the wind. Therefore, it is possible to reliably prevent the drain water from being blown by the wind and entering the air passage 4 from the gap 39.

以上の通り、本発明の空気調和機では、キャビネット1内の空気通路4に前側熱交換器5aおよび後側熱交換器5bが配設され、両熱交換器5a,5bで囲まれた空間内にファン6が配設され、前側熱交換器5aで生じたドレン水を受ける前側ドレンパン30が前側熱交換器5aの下方に配置され、後側熱交換器5bに生じたドレン水を受ける後側ドレンパン33が後側熱交換器5bの下方に配置され、後側ドレンパン33のドレン水を前側ドレンパン30に導く導水路34が空気通路4の側方に設けられ、導水路34の前端の滴下部36が前側ドレンパン30の上方に位置し、空気通路4が負圧になったときに滴下部36の近傍に生じる風の流れ方向において風を遮るように、複数の延長壁40〜43が滴下部36の周囲に形成される。   As described above, in the air conditioner of the present invention, the front heat exchanger 5a and the rear heat exchanger 5b are disposed in the air passage 4 in the cabinet 1, and the space surrounded by both the heat exchangers 5a and 5b. The rear drain pan 30 is disposed below the front heat exchanger 5a and receives the drain water generated in the rear heat exchanger 5b. The front drain pan 30 receives the drain water generated in the front heat exchanger 5a. A drain pan 33 is disposed below the rear heat exchanger 5 b, a water conduit 34 that guides the drain water of the rear drain pan 33 to the front drain pan 30 is provided on the side of the air passage 4, and a dripping portion at the front end of the water conduit 34 A plurality of extension walls 40 to 43 are disposed at the dripping portion so that the air is blocked in the direction of the wind generated near the dripping portion 36 when 36 is positioned above the front drain pan 30 and the air passage 4 becomes negative pressure. 36 is formed around the periphery.

複数の延長壁40〜43が滴下部36の周囲を取り囲むことにより、滴下部36の周囲における風の流れが変わる。滴下部36から空気通路4に向かって流れる風が遮られることになり、滴下部36から滴下するドレン水は風によって流されなくなる。   When the plurality of extension walls 40 to 43 surround the periphery of the dropping part 36, the flow of wind around the dropping part 36 changes. The wind flowing from the dripping portion 36 toward the air passage 4 is blocked, and the drain water dripping from the dripping portion 36 is not flowed by the wind.

空気通路4の側壁と前側ドレンパン30との間に隙間39があり、隙間39と滴下部36との間に各延長壁40〜43が設けられる。ファン6の駆動により、滴下部36の周囲では、隙間39に向かう風が生じる。しかし、延長壁40〜43により、隙間39に向かう風の流れが変わる。風は滴下部36から隙間39に直接向かわなくなり、ドレン水に対する風の影響を低減でき、ドレン水は隙間39に引き寄せられにくくなる。   There is a gap 39 between the side wall of the air passage 4 and the front drain pan 30, and the extension walls 40 to 43 are provided between the gap 39 and the dropping part 36. By driving the fan 6, wind toward the gap 39 is generated around the dropping portion 36. However, the flow of wind toward the gap 39 is changed by the extension walls 40 to 43. The wind does not go directly from the dripping portion 36 to the gap 39, and the influence of the wind on the drain water can be reduced, and the drain water is hardly attracted to the gap 39.

複数の延長壁40〜43は、少なくとも滴下部36よりも空気通路側および後側にそれぞれ位置する。導水路34はキャビネット1の前側に向かって形成され、滴下部36は導水路34の前端にある。そのため、滴下部36の周囲には、側方にある隙間39に直接向かう風および後方に向かって隙間39に達する風が生じる。これらの風を遮るために、滴下部36よりも空気通路側と後側に延長壁40〜43を設けるとよい。   The plurality of extension walls 40 to 43 are located at least on the air passage side and the rear side of the dropping portion 36, respectively. The water conduit 34 is formed toward the front side of the cabinet 1, and the dripping portion 36 is at the front end of the water conduit 34. Therefore, around the dripping portion 36, a wind that goes directly to the side gap 39 and a wind that reaches the gap 39 rearward are generated. In order to block these winds, the extension walls 40 to 43 may be provided on the air passage side and the rear side of the dropping portion 36.

滴下部36の空気通路側の延長壁40として、導水路34の空気通路側の側壁35bが前方に延長されることにより前方延長壁40が形成され、滴下部36の後側の延長壁41として、導水路34の前端から下方に向かって延びた後方延長壁41が形成される。   As the extension wall 40 on the air passage side of the dripping part 36, the front extension wall 40 is formed by extending the side wall 35 b on the air passage side of the water conduit 34 forward, and as the extension wall 41 on the rear side of the dropping part 36. A rear extension wall 41 extending downward from the front end of the water conduit 34 is formed.

前方延長壁40は、側方の隙間39に向かう風を遮る。後方延長壁41は、後方に向かう風を妨げる。そして、ドレン水は滴下部36から各延長壁40,41を伝って流れ、各延長壁40,41の下端から落下する。各延長壁40,41の下端は滴下部36から離れて位置するので、ドレン水が各延長壁40,41から離れる位置は隙間39から遠くなる。落下するドレン水を隙間39から遠ざけることができる。各延長壁40,41により、風の流れが上方に向かってから隙間39に向かうように変わる。したがって、ドレン水は風の影響を受けにくくなって、ドレン水は自重で落下する。   The front extension wall 40 blocks the wind toward the side gap 39. The rear extension wall 41 obstructs the wind toward the rear. Then, the drain water flows from the dropping portion 36 along the extension walls 40 and 41 and falls from the lower ends of the extension walls 40 and 41. Since the lower ends of the extension walls 40 and 41 are located away from the dripping portion 36, the position where the drain water is separated from the extension walls 40 and 41 is far from the gap 39. The falling drain water can be kept away from the gap 39. The extension walls 40 and 41 change the flow of the wind from upward to the gap 39. Therefore, the drain water is not easily affected by the wind, and the drain water falls by its own weight.

導水路34の空気通路側の側壁35bに、下方に向かって延びる少なくとも1つの下方延長壁が形成される。ドレン水が風に流されて各延長壁を越えて回り込んできても、ドレン水は下方延長壁によってせき止められ、ドレン水は空気通路側に向かわない。   At least one downward extending wall extending downward is formed on the side wall 35b of the water conduit 34 on the air passage side. Even if the drain water is swept by the wind and wraps around each extension wall, the drain water is blocked by the lower extension wall, and the drain water does not go to the air passage side.

下方延長壁42は前方延長壁40の下端に形成される。ドレン水は前方延長壁40から下方延長壁42を伝わって流れ落ちる。ドレン水が前方延長壁40の裏面に回り込むことを防止できる。さらに、下方延長壁43は、前方延長壁40の下端よりも空気通路側の裏面に形成される。ドレン水が前方延長壁40の裏面側に回り込んだとしても、空気通路4の近くにある下方延長壁43によってドレン水がせき止められる。   The lower extension wall 42 is formed at the lower end of the front extension wall 40. The drain water flows down from the front extension wall 40 along the lower extension wall 42. It is possible to prevent the drain water from entering the back surface of the front extension wall 40. Further, the lower extension wall 43 is formed on the back surface on the air passage side from the lower end of the front extension wall 40. Even if the drain water goes around to the back side of the front extension wall 40, the drain water is blocked by the lower extension wall 43 near the air passage 4.

なお、本発明は上記実施形態に限定されるものではなく、本発明の範囲内で多くの修正・変更を加えることができるのは勿論である。第2実施例の延長壁として、後方延長壁41を前下がりに傾斜させてもよい。他の延長壁は第1実施例のものと同じである。互いに傾斜した後方延長壁41と前方延長壁40とが合わさることにより、滴下部36から流れ出たドレン水を一か所に集めることができる。大きな水滴となり、風の影響を受けにくくすることができる。   In addition, this invention is not limited to the said embodiment, Of course, many corrections and changes can be added within the scope of the present invention. As an extension wall of the second embodiment, the rear extension wall 41 may be inclined forward and downward. Other extension walls are the same as those of the first embodiment. By combining the rear extension wall 41 and the front extension wall 40 inclined to each other, the drain water flowing out from the dripping portion 36 can be collected in one place. It becomes large water droplets and can be made less susceptible to wind.

第3実施例の延長壁として、前方延長壁40と後方延長壁41とを一連の壁となるように組み合わせたものであってもよい。このとき、前方延長壁40と後方延長壁41との間を湾曲面として、滴下部36の側方から後方を囲む一連の延長壁とする。なお、下方延長壁42,43は上記実施例と同様に設けられる。   As the extension wall of the third embodiment, the front extension wall 40 and the rear extension wall 41 may be combined to form a series of walls. At this time, a space between the front extension wall 40 and the rear extension wall 41 is used as a curved surface, and a series of extension walls surrounding the rear from the side of the dripping portion 36 is formed. The lower extension walls 42 and 43 are provided in the same manner as in the above embodiment.

3 吹出口
4 空気通路
5 熱交換器
5a 前側熱交換器
5b 後側熱交換器
6 ファン
7 背面板
8 前面パネル
20 ドレンパンユニット
23 他側の側壁
30 前側ドレンパン
33 後側ドレンパン
34 導水路
35a 他側の側壁
35b 一側の側壁
36 滴下部
39 隙間
40 前方延長壁
41 後方延長壁
42 第1の下方延長壁
43 第2の下方延長壁
3 Outlet 4 Air Passage 5 Heat Exchanger 5a Front Heat Exchanger 5b Rear Heat Exchanger 6 Fan 7 Back Plate 8 Front Panel 20 Drain Pan Unit 23 Other Side Wall 30 Front Drain Pan 33 Rear Drain Pan 34 Water Conduit 35a Other Side Side wall 35b One side wall 36 Dropping portion 39 Clearance 40 Front extension wall 41 Rear extension wall 42 First lower extension wall 43 Second lower extension wall

Claims (5)

キャビネット内の空気通路に前側熱交換器および後側熱交換器が配設され、両熱交換器で囲まれた空間内にファンが配設され、前側熱交換器で生じたドレン水を受ける前側ドレンパンが前側熱交換器の下方に配置され、後側熱交換器に生じたドレン水を受ける後側ドレンパンが後側熱交換器の下方に配置され、後側ドレンパンのドレン水を前側ドレンパンに導く導水路が空気通路の側方に設けられ、導水路の前端の滴下部が前側ドレンパンの上方に位置し、空気通路が負圧になったときに滴下部の近傍に生じる風の流れ方向において風を遮るように、複数の延長壁が滴下部の周囲に形成されたことを特徴とする空気調和機の排水構造。 A front heat exchanger and a rear heat exchanger are disposed in the air passage in the cabinet, a fan is disposed in a space surrounded by both heat exchangers, and a front side that receives drain water generated by the front heat exchanger. A drain pan is disposed below the front heat exchanger, a rear drain pan that receives drain water generated in the rear heat exchanger is disposed below the rear heat exchanger, and the drain water of the rear drain pan is guided to the front drain pan. A water conduit is provided on the side of the air passage, the dripping portion at the front end of the water passage is located above the front drain pan, and the wind direction in the direction of the wind generated near the dripping portion when the air passage becomes negative pressure A drainage structure for an air conditioner, wherein a plurality of extension walls are formed around the dropping portion so as to block the air. 空気通路の側壁と前側ドレンパンとの間に隙間があり、隙間と滴下部との間に延長壁が設けられたことを特徴とする請求項1記載の空気調和機の排水構造。 The drainage structure for an air conditioner according to claim 1, wherein there is a gap between the side wall of the air passage and the front drain pan, and an extension wall is provided between the gap and the dropping portion. 複数の延長壁は、少なくとも滴下部よりも空気通路側および後側にそれぞれ位置することを特徴とする請求項1または2記載の空気調和機の排水構造。 The drainage structure for an air conditioner according to claim 1 or 2, wherein the plurality of extension walls are positioned at least on the air passage side and on the rear side of the dropping portion, respectively. 滴下部の空気通路側の延長壁として、導水路の空気通路側の側壁が前方に延長されることにより前方延長壁が形成され、滴下部の後側の延長壁として、導水路の前端から下方に向かって延びた後方延長壁が形成されたことを特徴とする請求項3記載の空気調和機の排水構造。 As an extension wall on the air passage side of the dripping part, a front extension wall is formed by extending the side wall on the air passage side of the conduit to the front, and as an extension wall on the rear side of the dropping part, from the front end of the conduit The drainage structure for an air conditioner according to claim 3, wherein a rear extension wall extending toward the rear is formed. 導水路の空気通路側の側壁に、下方に向かって延びる少なくとも1つの下方延長壁が形成されたことを特徴とする請求項1〜4のいずれかに記載の空気調和機の排水構造。 The drainage structure for an air conditioner according to any one of claims 1 to 4, wherein at least one downward extension wall extending downward is formed on a side wall of the water conduit on the air passage side.
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PCT/JP2014/050897 WO2014115662A1 (en) 2013-01-22 2014-01-20 Draining structure for air-conditioner

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