HEAT EXCHANGER
PROBLEM TO BE SOLVED: To provide a heat exchanger which can drain condensate water even when a generation amount of the condensate water is small.SOLUTION: A heat exchanger 1 includes a heat exchange part 5 in which a plurality of heat exchange passages 3 which has refrigerant flowing inside thereof...
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| Zusammenfassung: | PROBLEM TO BE SOLVED: To provide a heat exchanger which can drain condensate water even when a generation amount of the condensate water is small.SOLUTION: A heat exchanger 1 includes a heat exchange part 5 in which a plurality of heat exchange passages 3 which has refrigerant flowing inside thereof and exchanges heat with air, are laminated in a direction orthogonal to the flow direction of the air, and a refrigerant tank 7 which is arranged at least in one of an upper and lower sides of the heat exchange part 5 and is connected to the heat exchange passage 3. In the heat exchanger 1, the plural refrigerant tanks 7 are arranged adjacent to each other in the flow direction of the air. The adjacent refrigerant tanks 7, 7 are provided to have a clearance between them, and are provided with a drain water facilitator 9 which makes condensate water collect and facilitates the drain of the condensate water.SELECTED DRAWING: Figure 6
【課題】凝縮水の発生量が少ない場合でも、凝縮水を排水することができる熱交換器を提供する。【解決手段】内部を冷媒が流れ空気との熱交換を行う熱交換路3が空気流れ方向と直交する方向に複数積層された熱交換部5と、この熱交換部5の少なくとも上下方向の一方に配置され熱交換路3と接続される冷媒タンク7とを備えた熱交換器1において、冷媒タンク7を、空気流れ方向に複数隣接して配置し、隣り合う冷媒タンク7,7を、離間して隙間を設け、隣り合う冷媒タンク7,7の対向する面に、凝縮水を集合させて排水を促進する排水促進部9を設けた。【選択図】図6 |
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