JP2006090632A - Air conditioner - Google Patents

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JP2006090632A
JP2006090632A JP2004276850A JP2004276850A JP2006090632A JP 2006090632 A JP2006090632 A JP 2006090632A JP 2004276850 A JP2004276850 A JP 2004276850A JP 2004276850 A JP2004276850 A JP 2004276850A JP 2006090632 A JP2006090632 A JP 2006090632A
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air
outlet
water
cooling surface
air conditioner
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JP4123211B2 (en
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Masaharu Ebihara
Masakatsu Iwashimizu
Akihiko Shimizu
Takashi Sugio
正勝 岩清水
孝 杉尾
正春 海老原
昭彦 清水
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Matsushita Electric Ind Co Ltd
松下電器産業株式会社
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Priority to JP2004276850A priority Critical patent/JP4123211B2/en
Priority claimed from KR1020050082051A external-priority patent/KR101183514B1/en
Priority claimed from CN 200510109725 external-priority patent/CN1749655B/en
Publication of JP2006090632A publication Critical patent/JP2006090632A/en
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Abstract

<P>PROBLEM TO BE SOLVED: To provide the constitution of an air conditioner high in safety and deodorizing a wall and a curtain. <P>SOLUTION: A water cluster generator 5 having a Peltier element 6 and clustering dew condensate formed on a cooling surface 8 by electric discharge so as to be discharged into the air, is disposed in a blowoff port 4 of a blowing circuit, and a water cluster with a high deodorizing effect is diffused indoors on blowoff air of the air conditioner to eliminate even odor components sticking to the indoor wall, curtain, or the like. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

本発明は、水のクラスターを室内に放出することで、壁やカーテンの脱臭を行う、空気調和機の構成に関する。 The present invention, by releasing the water clusters in a room, performing a deodorization walls and curtains, relating to the configuration of the air conditioner.

近年の空気調和機は冷房や暖房を行うに留まらず、室内空気の質向上を図るべく、浮遊塵埃やアレルゲンの除去、脱臭、抗菌などの各種機能が付与されている。 Recent air conditioner not only to perform the cooling or heating, in order to improve the quality of indoor air, the removal of airborne dust and allergens, deodorization, various functions such as antibacterial is given. しかし、基本的にはこれらの手段としては、空気吸入口に各種のフィルタ類を設けて濾し採るあるいは吸着するといった方式を採っており、これらフィルタ類の汚損が進行すると通風抵抗が増加して冷暖房時のエネルギー消費を増大させるばかりでなく、適宜、清掃・手入れを行わないと塵埃や臭いがフィルタに堆積するためにかえって逆効果となる可能性もある。 However, as these means are basically adopts a method such as taking or adsorbed straining provided various filters such the air inlet, the fouling of filters such proceeds ventilation resistance increases Air not only increases the energy consumption when, appropriately, it is possible that without cleaning and care dust and odors is rather counterproductive to deposit on the filter.

また、上記のような方式で脱臭を行う場合、室内空気中の臭い成分は比較的速やかに除去されるが、室内の壁やカーテン等に付着している臭い成分までは除去できず、室内には臭いが残ってしまうという課題があった。 When performing the deodorization in a manner as described above, but odor components in the room air is relatively quickly removed, it can not be removed until the odor components adhering to the chamber walls and curtains, the room there is a problem that would remain smell.

これに対して、例えば、図13のように空調装置類内部から吹き出される冷・暖空気に対して脱臭殺菌性ガスを適宜量混合せしめることにより、悪臭や細菌・バクテリア・黴類等の発生ならび拡散を防止することができる脱臭殺菌性ガス供給手段を具備する空調装置類が発明されている(例えば、特許文献1参照)。 In contrast, for example, by allowed to mix a proper amount of deodorant bactericidal gas to the cold-warm air blown out from the interior air conditioner such as in Figure 13, such as bad odors and bacteria Bacteria fungi occur air conditioning system such having a deodorizing sterilizing gas supply means capable of preventing the alignment diffusion have been invented (for example, see Patent Document 1).

この従来例は、図13に示すように、薬剤容器112と、その薬剤容器112に対して気化促進作用を行う気化促進部114とを備えた脱臭殺菌性ガス供給手段110を、空気流通路の一部に配設した、脱臭殺菌性ガス供給手段110を具備する空調装置類であって、適用される薬剤としては、ホルマリン、クレゾール等があげられるが、特に安定化二酸化塩素が殺菌脱臭性に優れ取り扱い上安全性の高いとしている。 This conventional example, as shown in FIG. 13, the drug container 112, the deodorizing sterilizing gas supply unit 110 that includes a vaporization promotion portion 114 for vaporization promoting effect on the drug container 112, the air flow passage some were disposed, the air conditioning apparatus such having a deodorizing sterilizing gas supply unit 110, as the agent to be applied, formalin, although cresol and the like, chlorine dioxide sterilizing deodorizing particularly stabilized It has a high handling safety excellent.

また、上記脱臭殺菌性ガス供給手段110は、空調装置類の空気採り入れ口1と熱交換器(冷・暖空気形成部)2との間の空気流通路に配設することが望ましいとしている。 Further, the deodorizing sterilizing gas supply unit 110 is that it is desirable to arrange the air flow passage between the inlet incorporates air of the air conditioner materials 1 and the heat exchanger (cold-warm air forming unit) 2.

このような構成により、気化促進部114による気化促進作用によって、薬剤容器112に収納された安定化二酸化塩素から二酸化塩素が適宜量ずつ気化せしめられ、このようにして得られる二酸化塩素ガスは、種々な方式の冷熱源や加熱源から熱交換された冷風や温風内に適宜量混合されて、エアコン設備の内部、ダクト等を順次通過し、エアコン等の吹き出し口から空調対象空間としての室内に吹き出される。 With this arrangement, the vaporization promoting effect due to vaporization promoting unit 114, chlorine dioxide from the housing has been stabilized chlorine dioxide to the drug container 112 is vaporized by a proper amount, chlorine dioxide gas obtained in this way, various a scheme from cold source or heat source is appropriately amount mixed to the heat exchanged cold air and Yutakakazenai of internal heating and air-conditioning, and sequentially passes through a duct or the like, in a room as the air conditioning target space from the outlet of the air conditioner It is blown out.

こうして、脱臭殺菌性ガスの混在した冷・暖空気が室内に吹き出されることになり、適用室内雰囲気を清浄かつ安全な状態に維持することができるというものである。 Thus, mixed cold-warm air deodorizing sterilizing gas is to be blown out into the room, is that the application chamber atmosphere can be maintained in a clean and safe condition.
特開2001−314492号公報 JP 2001-314492 JP

しかしながら、前記従来の構成では、脱臭殺菌性のガスとして二酸化塩素等の化学物質使用を想定しており、特に家庭用として広く用いる場合に、放出量の管理が不十分になると、完全に安全とは言い切れない、放出物質自体に臭いがある等の課題を有していた。 However, in the conventional arrangement, it assumes a chemical use of chlorine dioxide such as deodorizing germicidal gas, particularly when used widely for home use, the management of the released amount is insufficient, and completely safe is not be said, there is a problem such that the smell release material itself.

本発明は、前記従来の課題を解決するもので、安全性が高く、室内の壁やカーテン等に付着している臭い成分まで除去できる機能を有する空気調和機を提供することを目的とする。 The present invention is intended to solve the conventional problems, high safety, and to provide an air conditioner having a function capable of removing up odor components adhering to the chamber walls and curtains.

前記従来の課題を解決するために、本発明の空気調和機は、熱交換器と、送風機と、吸入口から前記熱交換器、前記送風機を通って吹出口に至る送風回路と、ペルチエ素子を有して、冷却面に結露した水を、放電によってクラスターにして空気中に放出させる水クラスター発生装置を備え、この水クラスター発生装置を前記送風回路の吹出口内に配したものである。 In order to solve the conventional problems, an air conditioner of the present invention, a heat exchanger, a blower, the heat exchanger from the inlet, a blower circuit extending to the air outlet through the blower, the Peltier element has been the water condensed on the cooling surface, the discharge in the cluster a water cluster generator which released into the air by, those which arranged the water cluster generating device outlet mouth of the blower circuit.

これによって、脱臭効果が高い水クラスターを、空気調和機の吹出し風に乗せて室内に拡散させることにより、室内の壁やカーテン等に付着している臭い成分まで除去できる上に、放出成分が水であるために、高い安全性が確保されるものである。 Thus, the deodorizing effect is high water clusters, by diffusing into the room placed on the wind blowing in the air conditioner, on which can be removed to odor components adhering to the chamber walls and curtains, release component is water for it, in which high safety is ensured.

本発明は、安全性が高く、室内の壁やカーテン等に付着している臭い成分まで除去できる機能を有する空気調和機を提供することができる。 The present invention can provide an air conditioner having high safety, it can be removed to odor components adhering to the chamber walls and curtains function.

第1の発明は、熱交換器と、送風機と、吸入口から前記熱交換器、前記送風機を通って吹出口に至る送風回路と、ペルチエ素子を有して、冷却面に結露した水を、放電によってクラスターにして空気中に放出させる水クラスター発生装置を備え、この水クラスター発生装置を前記送風回路の吹出口内に配することで、脱臭効果が高い水クラスターを、空気調和機の吹出し風に乗せて室内に拡散させることにより、室内の壁やカーテン等に付着している臭い成分まで除去できる上に、放出成分が水であるために、高い安全性が確保される。 A first invention is a heat exchanger, a blower, the heat exchanger from the inlet, a blower circuit extending to the air outlet through the fan, a Peltier element, the water that has condensed on the cooling surface, discharge in the cluster a water cluster generator which released into the air by the water cluster generating device by disposing the outlet mouth of the blowing circuit, the deodorizing effect is high water clusters, blow air conditioner air by diffusing into the room placed on, on which can be removed to odor components adhering to the chamber walls and curtains, since release component is water, high safety is ensured.

第2の発明は、ペルチエ素子の放熱フィンのみを送風回路の吹出口内に配し、冷却面は吹出口外に配することにより、暖房時に冷却面に吹出し口の高温風が当たることがなく、冷却面の温度を効率良く下げて、結露水が採れる。 The second invention is arranged only radiating fins of a Peltier device to blow the mouth of the blower circuit, cooling surface by placing the outlet extraoral, without hot air blowout the cooling surface during heating hits , the temperature of the cooling surfaces is lowered efficiently, dew condensation water can be taken.

第3の発明は、特に、第2の発明の送風回路吹出口の水クラスター発生装置位置の下流側に開口部を設け、吹出口内部の陰圧によって、前記ペルチエ素子冷却面、前記開口部を通過して、前記吹出口内に至る送風路を形成することにより、暖房時に冷却面に吹出し口の高温風が当たることがなく、冷却面の温度を効率良く下げて、結露水が採れる上に、新たにファン等を設けることなく、水クラスターを、空気調和機の吹出し風に乗せて室内に広く拡散させられる。 A third invention is, in particular, an opening is provided on the downstream side of the water clusters generator position of the air circuit outlet of the second invention, the air outlet inside the negative pressure, the Peltier element cooling surface, the opening passes, by forming the air passage leading to the outlet mouth, without hot air strikes the air outlet to the cooling surface during heating, the temperature of the cooling surface efficiently lowered, on the dew condensation water can be taken , without newly providing a fan or the like, the water clusters is caused to widely spread into the room placed on the wind blowing in the air conditioner.

第4の発明は、特に、第3の発明の水クラスター発生装置を吹出口の側壁に備えることにより、吹出口の主流にあって、大きい通風抵抗となり、冷暖房時の性能を低下させるといったことがない。 A fourth invention is, in particular, by providing the water clusters generator of the third invention in the side wall of the air outlet, in the mainstream of the air outlet, it is large ventilation resistance, it such to lower the performance in heating and cooling Absent.

第5の発明は、特に、第3の発明の水クラスター発生装置を吹出口の下部壁に備えることにより、放熱フィンが送風機から遠ざけることができ、騒音上昇を抑えられる。 A fifth invention is, in particular, by providing the water clusters generating apparatus of the third invention the bottom wall of the air outlet, it is possible to heat radiating fins away from the blower, suppressed the increase noise.

第6の発明は、特に、第3の発明の水クラスター発生装置を吹出口の上部壁に備えることにより、冷却面を熱交換器の上流側に置くことが出来るため、暖房時でも、冷却面に温度が低く風速が高い風が当てられ、結露量を多くできる。 A sixth invention is particularly, by providing the water clusters generating apparatus of the third invention in the upper wall of the air outlet, because the cooling surface can be placed on the upstream side of the heat exchanger, in the heating, cooling surface temperature wind speed is devoted a high wind low in, it can be a lot of condensation amount.

第7の発明は、水クラスター発生装置を吹出口の上部壁に備え、放熱フィンのみを熱交換器の上流側に配し、冷却面は吹出口内に配するので、暖房時でも、放熱フィンに温度の低い風が当てられ、効率良く放熱ができるため、冷却面の温度が下げられ、結露量を多くできる上に、水クラスターを、空気調和機の吹出し風に乗せて室内に広く拡散させられる。 A seventh invention is a water cluster generating device to the top wall of the air outlet, arranged only radiating fin on the upstream side of the heat exchanger, the cooling surface is disposed in outlet mouth, even during heating, heat radiation fins low wind devoted temperature, since it is efficiently dissipated, it lowered temperature of the cooling surface, over which can increase the dew condensation amount, the water clusters, is widely spread into the room placed on the wind blowing the air conditioner It is.

以下、本発明の実施の形態について、図面を参照しながら説明する。 Hereinafter, embodiments of the present invention will be described with reference to the drawings. なお、この実施の形態によって本発明が限定されるものではない。 It should be understood that the present invention is not limited by the embodiments.

(実施の形態1) (Embodiment 1)
図1は、本発明の第1の実施の形態における空気調和機室内機の縦断面図、図2は吹出口を正面から見た正面図で、図3は取り付けられる水クラスター発生装置の拡大斜視図、図4は水クラスターによる脱臭効果を示すグラフである。 Figure 1 is an enlarged perspective of a first longitudinal section of the air conditioner indoor unit in the embodiment of FIG. 2 is a front view of the outlet from the front, water clusters generating device 3 is mounted in the present invention FIG, 4 is a graph showing a deodorizing effect by the water clusters.

図1〜2において、吸入口1から熱交換器2、送風機3を通って吹出口4に至る送風回路があり、吹出口4の内部に水クラスター発生装置5を固定する。 In Figure 1-2, the heat exchanger 2 through the inlet 1, there is blowing circuit through the fan 3 reaches the outlet 4, the inside of the air outlet 4 to fix the water clusters generator 5.

図3において、水クラスター発生装置5にはペルチエ素子6があり、その冷却面側7に接して冷却面8、放熱面側9に接して放熱フィン10を固定する。 3, the water clusters generator 5 has the Peltier element 6, the cooling surface 7 in contact with the cooling surface 8, to fix the heat radiation fins 10 in contact with the heat radiating surface 9. また、冷却面上と、その上部には電極11a、11bを設け、この両電極間に高電圧を印加する。 Further, the upper cooling surface, the electrodes 11a, 11b are provided thereon, a high voltage is applied between the two electrodes.

また、水クラスター発生装置5の冷却面8を通過する風量を絞り、冷却面8の温度を下げるために、制御版12を設ける。 The diaphragm air volume passing through the cooling surface 8 of the water clusters generator 5, to reduce the temperature of the cooling surface 8, provide a control plane 12.

以上のように構成された空気調和機室内機について、以下その動作、作用を説明する。 Configuration air conditioner indoor unit as described above, the following operation will be explained.

ペルチエ素子6に通電すると、その両面に温度差が生ずる。 When energized Peltier element 6, the temperature difference is generated on both sides. この場合、冷却面側7に接する冷却面8での冷却量、放熱面側9に接する放熱フィン10からの放熱量を適切に設計すれば、冷却面8、及びその上の電極11aに結露を生じる。 In this case, the cooling amount in the cooling surface 8 in contact with the cooling surface 7, by appropriately designing the heat radiation amount from the radiating fin 10 in contact with the heat radiating surface 9, cooling surface 8, and the dew condensation on the electrode 11a thereon occur.

ここで、電極11a、11b間に高電圧を印加すると、放電が起こり、直径が約18nm程度の微細な水の粒子(クラスター)が放出され、吹出風に乗せて室内に広く拡散させることができる。 Here, upon application of a high voltage electrode 11a, between 11b, discharge occurs, the diameter is released about 18nm about fine water particles (clusters) can be widely spread into the room placed on the outlet air .

この水クラスターは反応性が高く、臭い成分に作用して無臭成分に分解する能力を持っており、その効果を図4に示す。 The water clusters is highly reactive, has a decomposing ability odorless component acting on the odor components, shows the effect in FIG. ここでは、カーテン生地にタバコ臭を付着させ、2時間後に、水クラスター放出の有無による臭気減衰の差を官能試験(6段階臭気表示法)にて評価した結果で、図の通り、自然減衰の場合に比べ明らかに効果が見られる。 Here, the curtain fabric to adhere the cigarette smell, after 2 hours, the result of the difference in odor attenuation due to the presence or absence of water clusters release was evaluated by a sensory test (6-step odor notation), as shown, the natural attenuation clearly, the effect can be seen compared to the case.

(実施の形態2) (Embodiment 2)
図5は、本発明の第2の実施の形態における空気調和機室内機の縦断面図、図6は吹出口を正面から見た正面図である。 Figure 5 is a longitudinal sectional view of an air conditioner indoor unit according to the second embodiment of the present invention, FIG. 6 is a front view of the outlet from the front.

以下の説明において、実施の形態1の説明と重複する水クラスター発生装置5の構成、脱臭効果とそのメカニズムに関する説明は省略する。 In the following description, the configuration of the water clusters generator 5 that overlap with the description of the first embodiment, the description of the deodorizing effect and the mechanism will be omitted.

図5〜6において、放熱フィン10のみを送風回路の吹出口4内に配し、冷却面8は吹出口4の外に配する。 In Figure 5-6, arranged only radiating fin 10 to the air outlet 4 of the air circuit, the cooling surface 8 is distribution outside of the air outlet 4. また、水クラスター発生装置5は吹出し口4の下部壁に固定し、水クラスター発生装置5位置の下流側に開口13と、そこに流れを導く誘導板14を設ける。 Further, water clusters generator 5 is fixed to the lower wall of the air outlet 4, an opening 13 on the downstream side of the water clusters generator 5 position, providing the guide plate 14 for guiding the flow therein.

以上のように構成された空気調和機室内機について、以下その動作、作用を説明する。 Configuration air conditioner indoor unit as described above, the following operation will be explained.

暖房時、吹出口4内の空気温度は高く、一方で通常は絶対湿度が下がっているため、冷却面8を吹出口4内に置いていたのでは、冷却面8の温度を露点以下に下げることは容易ではない。 During the heating, since the air temperature in the air outlet 4 is high, while the normally lowered absolute humidity, than the cooling surface 8 has been placed in the air outlet 4 may lower the temperature of the cooling surface 8 to below the dew point it is not easy. しかし、本発明のように冷却面8を吹出口4の外に置くことで、空気温度が低く、しかも送風路外なので風速も遅いため、冷却面8に容易に結露する。 However, the cooling surface 8 as in the present invention by placing outside of the air outlet 4, low air temperature, and since the wind velocity is slow because outside air passage, easily condensed on the cooling surface 8.

また、吹出口4内は風速が高いため、静圧は陰圧になっており、開口13を設けると、外部から吹出口4に向かう流れが生まれ、この流れによって冷却面8に湿分を供給するとともに、放出された水クラスターを、誘導板14、開口13を経由して、吹出口4内に誘引し、吹出風に乗せて室内に広く拡散させることができる。 Further, since the air outlet 4 wind speed is high, supply static pressure has become a negative pressure and an opening 13, taking the flow from the outside to the air outlet 4, the moisture in the cooling surface 8 by the flow as well as, the released water clusters, induction plate 14 via the opening 13, and attracted to the air outlet 4 may be widely spread into the room placed on the outlet air.

また、本実施例では、水クラスター発生装置5を吹出し口4の下部壁に固定することで、放熱フィン10と送風機3の距離を取ることができ、騒音上昇を抑えられる。 Further, in this embodiment, by fixing the lower wall of the water clusters generator 5 the outlet 4, the distance of the heat radiation fins 10 and the air blower 3 can take, suppressed the increase noise.

(実施の形態3) (Embodiment 3)
図7は、本発明の第3の実施の形態における空気調和機室内機の縦断面図、図8は吹出口を正面から見た正面図である。 Figure 7 is a longitudinal sectional view of an air conditioner indoor unit according to the third embodiment of the present invention, FIG 8 is a front view of the outlet from the front.

以下の説明において、実施の形態1、2の説明と重複する説明は省略する。 In the following description, the repetition of the explanation of the first and second embodiments will be omitted.

図7〜8において、放熱フィン10のみを送風回路の吹出口4内に配し、冷却面8は吹出口4の外に配する。 In Figure 7-8, arranged only radiating fin 10 to the air outlet 4 of the air circuit, the cooling surface 8 is distribution outside of the air outlet 4. また、水クラスター発生装置5は吹出し口4の側壁に固定し、水クラスター発生装置5位置の下流側に開口13と、そこに流れを導く誘導板14を設ける。 Further, water clusters generator 5 is fixed to the side wall of the air outlet 4, an opening 13 on the downstream side of the water clusters generator 5 position, providing the guide plate 14 for guiding the flow therein.

以上のように構成された空気調和機室内機について、以下その動作、作用を説明する。 Configuration air conditioner indoor unit as described above, the following operation will be explained.

本実施の形態では、水クラスター発生装置5を吹出し口4の側壁に固定することで、放熱フィン10が吹出口の主流にあって、大きい通風抵抗となり、冷暖房時の性能を低下させるといったことがない。 In this embodiment, by fixing the side walls of the air outlet 4 of water cluster generating device 5, the heat radiation fin 10 is in the mainstream of the air outlet becomes a large ventilation resistance, such to lower the performance in heating and cooling Absent.

(実施の形態4) (Embodiment 4)
図9は、本発明の第4の実施の形態における空気調和機室内機の縦断面図、図10は吹出口を正面から見た正面図である。 Figure 9 is a longitudinal sectional view of an air conditioner indoor unit according to the fourth embodiment of the present invention, FIG 10 is a front view of the outlet from the front.

以下の説明において、実施の形態1、2の説明と重複する説明は省略する。 In the following description, the repetition of the explanation of the first and second embodiments will be omitted.

図9〜10において、放熱フィン10のみを送風回路の吹出口4内に配し、冷却面8は吹出口4の外、熱交換器2の上流側に配する。 In Figure 9-10, arranged only radiating fin 10 to the air outlet 4 of the air circuit, the cooling surface 8 outside of the air outlet 4, which distribution on the upstream side of the heat exchanger 2. また、水クラスター発生装置5は吹出し口4の上部壁に固定する。 Further, water clusters generator 5 is fixed to the upper wall of the air outlet 4.

以上のように構成された空気調和機室内機について、以下その動作、作用を説明する。 Configuration air conditioner indoor unit as described above, the following operation will be explained.

本実施の形態では、水クラスター発生装置5を吹出口4の上部壁に備えることにより、冷却面8を熱交換器2の上流側に置くことが出来るため、暖房時でも、冷却面に温度が低く風速が高い風が当てられ、結露量を多くできる。 In this embodiment, by providing the water clusters generator 5 to the upper wall of the air outlet 4, since the cooling surface 8 can be placed on the upstream side of the heat exchanger 2, in the heating, the temperature in the cooling surface low wind speed is high wind is applied, it can be a lot of condensation amount.

(実施の形態5) (Embodiment 5)
図11は、本発明の第5の実施の形態における空気調和機室内機の縦断面図、図12は吹出口を正面から見た正面図である。 Figure 11 is a longitudinal sectional view of an air conditioner indoor unit in the fifth embodiment of the present invention, FIG 12 is a front view of the outlet from the front.

以下の説明において、実施の形態1、2、4の説明と重複する説明は省略する。 In the following description, the repetition of the explanation of the embodiments 1, 2, 4 will be omitted.

図11〜12において、水クラスター発生装置5を吹出口4の上部壁に備え、放熱フィン10のみを熱交換器2の上流側に配し、冷却面8は吹出口4内に配する。 In Figure 11-12, a water cluster generating device 5 to the upper wall of the air outlet 4, only the heat radiation fins 10 arranged on the upstream side of the heat exchanger 2, the cooling surfaces 8 are distribution to outlet 4.

以上のように構成された空気調和機室内機について、以下その動作、作用を説明する。 Configuration air conditioner indoor unit as described above, the following operation will be explained.

本実施の形態では、暖房時でも、放熱フィン10に温度の低い風が当てられ、効率良く放熱ができるため、冷却面8の温度が下げられ、結露量を多くできる上に、水クラスターを、空気調和機の吹出し風に乗せて室内に広く拡散させられる。 In the present embodiment, even when heating, low temperature air is applied to the radiating fin 10, since it is efficiently dissipated, it lowered temperature of the cooling surface 8, on which can increase the dew condensation amount, the water clusters, put the wind blowing the air conditioner is allowed to widely diffuse in the room.

以上のように、本発明にかかる空気調和機は、熱交換器と、送風機と、吸入口から前記熱交換器、前記送風機を通って吹出口に至る送風回路と、ペルチエ素子を有して、冷却面に結露した水を、放電によってクラスターにして空気中に放出させる水クラスター発生装置を備え、この水クラスター発生装置を前記送風回路の吹出口内に配することで、脱臭効果が高い水クラスターを、空気調和機の吹出し風に乗せて室内に拡散させることにより、室内の壁やカーテン等に付着している臭い成分まで除去できるので、脱臭以外の効果を持つ成分を室内に放出する空気調和機にも広く適用できる。 As described above, the air conditioner according to the present invention, comprises a heat exchanger, a blower, the heat exchanger from the inlet, a blower circuit extending to the air outlet through the blower, the Peltier element, the water condensed on the cooling surface, the discharge in the cluster a water cluster generator which released into the air by, by disposing the water clusters generating device outlet mouth of the blowing circuit, the deodorizing effect is high water clusters and by diffusing into the room placed on the wind blowing in the air conditioner, it can be removed to odor components adhering to the chamber walls and curtains, air conditioning which releases a component having effects other than deodorization into the room It can be widely applied to the machine.

本発明の実施の形態1における空気調和機室内機の縦断面図 Longitudinal sectional view of an air conditioner indoor unit according to the first embodiment of the present invention 本発明の実施の形態1における吹出口を正面から見た正面図 Front view as viewed from the front of the air outlet in the first embodiment of the present invention 本発明の実施の形態1における水クラスター発生装置の拡大斜視図 Enlarged perspective view of the water clusters generating apparatus according to a first embodiment of the present invention 本発明の実施の形態1における脱臭効果を示すグラフ Graph showing the deodorizing effect according to the first embodiment of the present invention 本発明の実施の形態2における空気調和機室内機の縦断面図 Longitudinal sectional view of an air conditioner indoor unit according to the second embodiment of the present invention 本発明の実施の形態2における吹出口を正面から見た正面図 Front view as viewed from the front of the air outlet in the second embodiment of the present invention 本発明の実施の形態3における空気調和機室内機の縦断面図 Longitudinal sectional view of an air conditioner indoor unit according to the third embodiment of the present invention 本発明の実施の形態3における吹出口を正面から見た正面図 Front view as viewed from the front of the air outlet in the third embodiment of the present invention 本発明の実施の形態4における空気調和機室内機の縦断面図 Longitudinal sectional view of an air conditioner indoor unit according to the fourth embodiment of the present invention 本発明の実施の形態4における吹出口を正面から見た正面図 Front view as viewed from the front of the air outlet in a fourth embodiment of the present invention 本発明の実施の形態5における空気調和機室内機の縦断面図 Longitudinal sectional view of an air conditioner indoor unit according to a fifth embodiment of the present invention 本発明の実施の形態5における吹出口を正面から見た正面図 Front view as viewed from the front of the air outlet in the fifth embodiment of the present invention 従来の空気調和機の断面図 Sectional view of a conventional air conditioner

符号の説明 DESCRIPTION OF SYMBOLS

1 吸入口 2 熱交換器 3 送風機 4 吹出口 5 水クラスター発生装置 6 ペルチエ素子 7 ペルチエ素子冷却面側 8 冷却面 9 ペルチエ素子放熱面側 10 放熱フィン 11a 冷却面側の電極 11b 上の電極 12 制御板 13 開口 14 誘導板 1 inlet 2 heat exchanger 3 air blower 4 outlet 5 water clusters generator 6 Peltier elements 7 Peltier element cooling surface 8 a cooling surface 9 Peltier element radiating surface 10 radiating fin 11a electrodes 12 control on the cooling surface of the electrode 11b plate 13 opening 14 guiding plate

Claims (7)

  1. 熱交換器と、送風機と、吸入口から前記熱交換器、前記送風機を通って吹出口に至る送風回路と、ペルチエ素子を有して、冷却面に結露した水を、放電によってクラスターにして空気中に放出させる水クラスター発生装置を備え、この水クラスター発生装置を前記送風回路の吹出口内に配したことを特徴とする空気調和機。 A heat exchanger, a blower, the heat exchanger from the inlet, a blower circuit extending to the air outlet through the fan, a Peltier element, the water that has condensed on the cooling surface, in the cluster by the discharge air an air conditioner characterized by comprising a water cluster generating device to discharge, it arranged the water clusters generating device outlet mouth of the blowing circuit during.
  2. 熱交換器と、送風機と、吸入口から前記熱交換器、前記送風機を通って吹出口に至る送風回路と、ペルチエ素子を有して、冷却面と放熱フィンを有し、冷却面に結露した水を、放電によってクラスター粒子にして空気中に放出させる水クラスター発生装置を備え、前記放熱フィンのみを前記送風回路の吹出口内に配し、前記冷却面は前記送風回路の吹出口外に配したことを特徴とする空気調和機。 A heat exchanger, a blower, the heat exchanger from the inlet, a blower circuit extending to the air outlet through the fan, a Peltier element has a cooling surface radiating fin, and condensed on the cooling surface water, in the cluster particles comprising a water cluster generator which released into the air by the discharge, arranged only the heat radiation fins outlet mouth of the blowing circuit, the cooling surface distribution in blow extraoral of the blowing circuit air conditioner, characterized in that the.
  3. 前記送風回路吹出口の前記水クラスター発生装置位置の下流側に開口部を設け、吹出口内部の陰圧によって、前記ペルチエ素子冷却面、前記開口部を通過して、前記吹出口内に至る送風路を形成したことを特徴とする請求項2に記載の空気調和機。 An opening is provided on the downstream side of the water cluster generator position of the blower circuit outlet, the air outlet inside the negative pressure, the Peltier element cooling surface, through said opening, blowing leads to the outlet mouth the air conditioner according to claim 2, characterized in that the formation of the road.
  4. 前記水クラスター発生装置を前記吹出口の側壁に備えたことを特徴とする請求項2に記載の空気調和機。 The air conditioner according to claim 2, characterized in that it comprises the water cluster generating device to a side wall of the air outlet.
  5. 前記水クラスター発生装置を前記吹出口の下部壁に備えたことを特徴とする請求項2に記載の空気調和機。 The air conditioner according to claim 2, characterized in that it comprises the water cluster generating device to the bottom wall of the air outlet.
  6. 前記水クラスター発生装置を前記吹出口の上部壁に備えたことを特徴とする請求項2に記載の空気調和機。 The air conditioner according to claim 2, characterized in that it comprises the water cluster generating device to the top wall of the air outlet.
  7. 熱交換器と、送風機と、吸入口から前記熱交換器、前記送風機を通って吹出口に至る送風回路と、ペルチエ素子を有して、冷却面と放熱フィンを有し、冷却面に結露した水を、放電によってクラスター粒子にして空気中に放出させる水クラスター発生装置を前記吹出口の上部壁に備え、前記放熱フィンのみを前記送風回路の熱交換器の上流側に配し、前記冷却面は前記送風回路の吹出口内に配したことを特徴とする空気調和機。 A heat exchanger, a blower, the heat exchanger from the inlet, a blower circuit extending to the air outlet through the fan, a Peltier element has a cooling surface radiating fin, and condensed on the cooling surface water discharge in the cluster particles comprising a water cluster generator which released into the air in the top wall of the outlet by arranging only the heat radiation fin on the upstream side of the heat exchanger of the blowing circuit, the cooling surface air conditioner, characterized in that arranged on the outlet mouth of the blowing circuit.
JP2004276850A 2004-09-24 2004-09-24 Air conditioner Active JP4123211B2 (en)

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JP2004276850A JP4123211B2 (en) 2004-09-24 2004-09-24 Air conditioner
KR1020050082051A KR101183514B1 (en) 2004-09-13 2005-09-05 Air conditioner
CN 200510109725 CN1749655B (en) 2004-09-13 2005-09-13 air conditioner
CN 200910160540 CN101660810B (en) 2004-09-13 2005-09-13 air conditioner
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