JP2007163109A - Air conditioner provided with electrostatic atomization device - Google Patents

Air conditioner provided with electrostatic atomization device Download PDF

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JP2007163109A
JP2007163109A JP2005363914A JP2005363914A JP2007163109A JP 2007163109 A JP2007163109 A JP 2007163109A JP 2005363914 A JP2005363914 A JP 2005363914A JP 2005363914 A JP2005363914 A JP 2005363914A JP 2007163109 A JP2007163109 A JP 2007163109A
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air
electrostatic
mist
air conditioner
outlet
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多津彦 ▲松▼本
Shosuke Akisada
Toshihisa Hirai
Tatsuhiko Matsumoto
Akihide Sugawa
Sumio Wada
Takeshi Yano
澄夫 和田
利久 平井
武志 矢野
昭輔 秋定
晃秀 須川
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Matsushita Electric Works Ltd
松下電工株式会社
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<P>PROBLEM TO BE SOLVED: To effectively diffuse mist obtained by electrostatic atomization inside a chamber. <P>SOLUTION: The air conditioner 2 comprises an electrostatic atomization device 11, including a discharge electrode 11 and a counter electrode 12 opposite thereto, high voltage being applied between both, a cooling means 13 for cooling the discharge electrode and generating water for electrostatic atomization, based on the moisture in air in the discharge electrode part, and a release port for releasing electrostatically atomized mist. The device 1 is arranged outside of a blast air passage 24 extending to an outlet port 25 in the air conditioner, and has an inlet pipe 15 for guiding the mist from the release port to the outlet port. The mist, discharged out of the release port of the atomization device, is discharged via the inlet pipe and is diffused into the chamber carried on the wind from the outlet port of the air conditioner. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、静電霧化装置、殊にナノメータサイズの帯電微粒子水(ミスト)を発生させる静電霧化装置を備えた空調装置に関するものである。 The present invention relates to an air conditioning apparatus provided with the electrostatic atomizer, an electrostatic atomizer for particular generating charged water particles of nanometer size (mist).

水を静電霧化することでナノメータサイズの耐電微粒子水(ミスト)を発生させる静電霧化装置が特許文献1で知られている。 An electrostatic atomizer for generating withstand water particles nanometer size (mist) by electrostatically atomizing water is known in Patent Document 1. これは水が供給される放電電極と対向電極との間に高電圧を印加して放電させ、放電電極が保持している水にレイリー分裂を生じさせて霧化させることによってナノメータサイズの帯電微粒子水(ミスト)を発生させるものであり、このようにして形成されるミストはラジカルを含んでいるとともに長寿命であって、空間内への拡散を大量に行うことができ、室内の壁面や衣服やカーテンなどに付着した悪臭成分などに効果的に作用して無臭化することができるといった特徴を有している。 This is a high voltage is applied discharged between the discharge electrode and the counter electrode which water is supplied, the charged particles of nanometer size by the discharge electrode is atomized cause Rayleigh fission in water held is intended to generate a water (mist), the mist that is formed in this manner is a long life together contain radicals, it can be performed diffusion into space in large quantities, indoor wall or clothing It has features such can be deodorized or the like acts effectively like malodorous components adhered to the curtain.

そして上記ミストは、空調装置の風に乗せることで室内に拡散させることができるが、静電霧化装置を空調装置内に組み込む場合、次の点が問題となる。 And the mist can be diffused into the chamber by placing the wind of the air conditioner, when incorporating the electrostatic atomizer in the air conditioning system, the following points becomes a problem. すなわち、エバポレータやヒータといった機器を備えた空調装置内の送風路上に静電霧化装置を設置すると、空調装置によって調整された高温度の空気及び/又は低湿度の空気に静電霧化装置が晒されることになり、この場合、静電霧化させるために放電電極に供給している水が上記調整された空気によって蒸発してしまい、放電による静電霧化が阻害されてしまう。 That is, when installing the electrostatic atomization apparatus to the blowing path in the air conditioning apparatus equipped with devices such as an evaporator and a heater, an electrostatic atomization apparatus in the air in the air and / or low humidity high temperature adjusted by the air conditioning system becomes exposed is that, in this case, water is supplied to the discharge electrode in order to electrostatically atomizing ends up evaporated by air which is the adjustment, the electrostatic atomization is hindered by the discharge.

特に放電電極を冷却することで空気中の水分を結露させて放電電極上に静電霧化させるための水を生成するようにした静電霧化装置では、水の補給の手間がいらないという点で優れた使い勝手を有するが、このタイプのものでは放電電極上に結露水を生成することすらできない場合が生じてしまう。 Particularly in the discharge electrode electrostatically atomizing device designed to produce water for electrostatically atomizing on the discharge electrode by condensation of moisture in the air by cooling the can, that labor of replenishing water is not needed in has excellent usability, this is a type of thing occurs may not be even to produce the condensate water on the discharge electrode.

また、車載用の空調装置のように、エバポレータやヒータといった機器と、調整した空気を室内に吹き出す吹き出し口との間をダクトで形成した長い送風路で接続しているものにおいては、上記送風路内で静電霧化によりミストを発生させても、送風路内の温風はかなり高温低湿度であるために、吹き出し口に至るまでに消失してしまって、室内に吐出されるミスト量がきわめて少なくなる。 Also, as in the vehicle air conditioning system, in which are connected by a long air passage formed by duct between the equipment such as an evaporator and a heater, the outlet blowing out the adjusted air into the chamber, the air flow passage even inner mist is generated by electrostatic atomization, in order warm air in the air passage is considerably high temperature and low humidity, disappeared before reaching the outlet, the amount of mist discharged into chamber It becomes very small.
特許第3260150号公報 Patent No. 3260150 Publication

本発明は上記の従来の問題点に鑑みて発明したものであって、静電霧化によって得たミストを効果的に室内に拡散させることができる静電霧化装置を備えた空調装置を提供することを課題とするものである。 The present invention was invented in view of the conventional problems described above, provides an air conditioner having an electrostatic atomizing device which can diffuse the mist obtained by electrostatic atomization effective in chamber it is an object of the present invention to.

上記課題を解決するために本発明は、 The present invention for solving the above-
放電電極及びこれに対向するとともに放電電極との間に高圧が印加される対向電極と、上記放電電極を冷却して放電電極部分に空気中の水分を基に静電霧化させるための水を生成させる冷却手段と、静電霧化したミストを放出する放出口とを備える静電霧化装置が設けられた空調装置であって、上記静電霧化装置は空調装置における吹き出し口に至る送風路外に配設されているとともにその放出口からのミストを吹き出し口に導く導入管を備えていることに特徴を有している。 A counter electrode pressure is applied between the with the discharge electrode to the discharge electrode and the opposite thereto, the discharge electrode portion to cool the discharge electrode water for electrostatically atomizing the basis of moisture in the air and cooling means for generating, the air conditioning apparatus electrostatic atomizer is provided with a discharge port for releasing the electrostatic atomization mist, the above electrostatic atomizer blast reaches the outlet balloon in the air conditioner It is characterized in that it comprises a feed pipe leading to the mist outlet from the outlet together are disposed outside the road.

静電霧化装置の放出口から吐出されたミストは導入管を経て吐出され、空調装置の吹き出し口からの風に乗って室内に拡散されるようにしたものである。 Mist discharged from the outlet of the electrostatic atomizing device is discharged through the inlet pipe, in which so as to be diffused into the room on the wind from outlet of the air conditioner.

上記導入管は帯電しにくい材質からなるフレキシブル管で形成されていることが、帯電微粒子水であるミストを効率良く放出する点と静電霧化装置の設置の自由度の向上との点で好ましい。 The introduction pipe that is formed by a flexible tube made hardly charged material, preferably in terms of the improvement of the freedom of installation of the a charged fine water mist efficiently emitting points and the electrostatic atomizing device .

導入管は空調装置における吹き出し口に至る送風路から分岐されて導入管に調整後の空気の一部を流入させる分岐管が接続されているものであってもよい。 Introduction pipe may be one branch pipe for flowing a part of the air was adjusted to inlet pipe is branched from the air passage leading to the opening blowout in the air conditioning system is connected. この場合、調整後の空気の風圧を利用してミストを強制的に送り出すことができる。 In this case, the mist can be forcibly feeding the utilizing wind pressure of the air after the adjustment.

導入管は径が漸次変化するテーパ状の管であるとともに、放出口がわである一端の断面積よりも他端の先端開口側の断面積が小さくなっていると、静電霧化時に発生する音が外部に漏れるのを低減することができる。 With the introduction tube is tapered tube diameter changes gradually, when the cross-sectional area of ​​the distal end opening side of the other end is smaller than the cross-sectional area of ​​the end outlet is I, generated during the electrostatic atomization sound it is possible to reduce the leaking to the outside.

本発明は、静電霧化装置の放出口から吐出されたミストが導入管を経て吐出されて、空調装置の吹き出し口からの風に乗って室内に拡散されるものであり、吹き出し口に至るまでの送風路内でミストを発生させたりミストを混合するものではないために、水の生成に関する問題やミストの消失といった問題を招くことがないものである。 The present invention, mist discharged from the outlet of the electrostatic atomizing device is discharged through the inlet pipe, which is diffused into the room on the wind from outlet of the air conditioner and reaches the outlet to not to mix the mist or to generate mist blowing path up to, but does not lead to problems such as loss problems or mist on the generation of water.

以下、本発明を添付図面に示す実施形態に基いて説明すると、図2は車載用の空調装置2の一例を示しており、ブロア20とフィルタ22とエバポレータ23とを備えて、吸い込み口21から吸い込んだ車室内空気(並びに車室外空気)を調整した後、送風路24を通じて複数の吹き出し口25から車室内に吹き出すものとして形成されている。 Explaining based on the embodiment according to the present invention in the accompanying drawings, FIG. 2 shows an example of the air conditioner 2 for vehicle, and a blower 20 and a filter 22 and the evaporator 23, the suction port 21 after adjusting the room air (as well as outside air) sucked is formed as to be blown into the passenger compartment from the plurality of outlet 25 through air passage 24.

静電霧化装置1は、上記複数の吹き出し口25のうちの一つに隣接して配置されたもので、図1に示すように、放電電極11と、この放電電極11を囲む絶縁材からなる筒体の先端開口部に配設されて上記放電電極11に対向する対向電極12と、上記放電電極11を冷却することで空気中の水分を放電電極上に結露させる冷却手段13と、放電電極11と対向電極12との間に高電圧を印加する高圧電源部(図示せず)とからなるもので、ペルチェ素子で構成されている上記冷却手段13は放熱用フィン14を備えている。 Electrostatic atomizing device 1 has been positioned adjacent to one of said plurality of outlet 25, as shown in FIG. 1, a discharge electrode 11, an insulating material surrounding the discharge electrode 11 becomes disposed at the distal end opening of the cylindrical body and a counter electrode 12 opposite to the discharge electrode 11, a cooling means 13 for condensing the moisture in the air on the discharge electrode by cooling the discharge electrode 11, discharge those consisting of a high-voltage power supply unit for applying a high voltage between the electrode 11 and the counter electrode 12 (not shown), the cooling means 13 is composed of a Peltier element is provided with a heat radiation fin 14.

この静電霧化装置1では、冷却手段13で放電電極11を冷却することで空気中の水分を結露させて放電電極11上に結露水を生成し、この結露水を放電電極11と対向電極12との間の放電によって静電霧化させてナノメータサイズの静電微粒子水(ミスト)Mを発生させるのであるが、このようにして発生させたミストMは、放電電極11を囲む筒体の先端開口部を放出口としてこの放出口から外部に吐出される。 In the electrostatic atomizing device 1, by condensing the moisture in the air to produce the condensate water on the discharge electrode 11 by cooling the discharge electrode 11 by cooling means 13, the dew condensation water discharging electrode 11 and the counter electrode although cause by electrostatic atomization generate an electrostatic water particles (mist) M of nanometer size by the discharge between the 12, the mist M that this way is generated, the cylindrical body surrounding the discharge electrodes 11 the tip opening as outlet discharged from the discharge port to the outside.

ここにおいて、上記静電霧化装置1は空調装置2における吹き出し口25の近傍に配置されているとともに、上記放出口に一端を被せたフレキシブルチューブからなる導入管15の他端が空調装置2における吹き出し口25のところに配設されている。 Here, along with the electrostatic atomizing device 1 is positioned in the vicinity of the outlet 25 of the air conditioner 2, the other end of the introduction pipe 15 made of a flexible tube covered at one end to said discharge port in the air conditioner 2 It is disposed at the blow-out port 25. 静電霧化装置1の放出口から吐出されたミストMは、導入管15を経て吹き出し口25から吐出される風の流れに乗って車室内に拡散される。 Mist M discharged from the outlet of the electrostatic atomizing device 1 is diffused into the passenger compartment on stream of air discharged from the outlet 25 through the inlet pipe 15.

ここにおいて静電霧化装置1は、空調装置2における吹き出し口25に至る送風路24外に設置されており、このために放電電極2上への結露水の生成や静電霧化に関して、送風路24内の流れる調整された空気の影響を受けることがなく、ミストMの発生を確実に行うことができる。 Electrostatic atomizing device 1 in this case is placed outside blast path 24 leading to the outlet 25 of the air conditioner 2, with respect to the generation and electrostatic atomization of condensation water to the discharge electrode 2 above to this, the blowing without being affected by the air that has been adjusted flowing road 24, it is possible to reliably generate the mist M. また車のフロントダッシュボード内は、各種機器が配設されている上に、上記送風路24が配設されていることから、送風路24外で且つ吹き出し口25近辺に静電霧化装置1を設置するスペースの制約がきわめて厳しいのであるが、フレキシブルチューブからなる導入管15でミストMを吹き出し口25まで導いているために、静電霧化装置1の設置自由度が増しており、無理なく静電霧化装置1をダッシュボード内に組み込むことができる。 Also in the front of the car dashboard, on which various devices are disposed, since the air flow passage 24 is provided, air passage 24 electrostatically atomizing device 1 in and outlet 25 near an outer Although space constraints of installation is to extremely tough, in order to have led to the outlet 25 of the mist M in the introduction pipe 15 made of flexible tubes, degree of freedom of installation of electrostatic atomizing device 1 are increased, unreasonable the electrostatic atomizing device 1 can be incorporated into the dashboard without. また、導入管15は帯電しにくい材質からなるものを用いているために、静電霧化によって得たミスト(帯電微粒子水)Mを損失なく送り出すことができる。 The introduction pipe 15 is due to the use of those made of hardly charged material can be delivered without loss mist (charged water particles) M obtained by electrostatic atomization.

図3に他例を示す。 Figure 3 shows another example. これは空調装置2における送風路24と導入管15とをつなぐ分岐管26を設けて、送風路24内を流れる調整済みの空気の一部が導入管15内に流れ込んで導入管15内のミストMを吹き出し口25へと押し出すようにすることで、ミストMの搬送効率を高めたものである。 This provided a branch pipe 26 which connects the inlet pipe 15 and air passage 24 in the air conditioner 2, the mist in the inlet pipe 15 a portion of the adjusted air flowing air passage 24 is flowed into the introduction pipe 15 by the pushing out into outlet 25 M, in which an increased transport efficiency of the mist M.

ところで静電霧化に際しては放電によるところの騒音が発生してしまうことから、図4に示すように、導入管15にテーパ状の管となっているものを用いるとともに、放出口がわである一端の断面積よりも他端の先端開口側の断面積が小さくなるようにすれば、外部に漏れ出る騒音を低減することができ、車室内の静音化を図ることができる。 However since the noise at by discharge during the electrostatic atomization occurs, as shown in FIG. 4, with using those has a tapered tube inlet pipe 15 is I release opening if so the cross-sectional area of ​​the distal end opening side of the other end than the cross-sectional area of ​​the end is reduced, it is possible to reduce noise leaking to the outside, it is possible to noise reduction in the passenger compartment.

なお、図示例では複数存在している吹き出し口25のうちの一つに隣接させて静電霧化装置1を設けたものを示したが、複数の吹き出し口25に夫々隣接させて複数の静電霧化装置1を設けたものであってもよいのはもちろんである。 Incidentally, although the ones in the illustrated embodiment is provided with one on by adjacent electrostatic atomizer 1 of the outlet 25 there are a plurality, respectively by adjacent plurality of stator into a plurality of outlet 25 it is of course may be one provided with the electrostatic atomizing device 1.

また、導入管15の先端を吹き出し口25に配置するにあたっては、図5に示すように吹き出し口25に配されているルーバの手前に導入管15を接続することで行ってもよい。 Also, when placing the tip of outlet 25 of the inlet pipe 15 may be performed by connecting the inlet tube 15 in front of the louvers are disposed in outlet 25 as shown in FIG.

本発明の実施の形態の一例の概略断面図である。 It is a schematic cross-sectional view of an embodiment of the present invention. 同上のブロック図である。 It is a block diagram of the same. 他例の概略断面図である。 It is a schematic cross-sectional view of another example. 更に他例の概略断面図である。 Further is a schematic cross-sectional view of another example. 別の例の概略断面図である。 It is a schematic cross-sectional view of another example.

符号の説明 DESCRIPTION OF SYMBOLS

M ミスト 1 静電霧化装置 2 空調装置 11 放電電極 12 対向電極 13 冷却手段 15 導入管 24 送風路 25 吹き出し口 M mist 1 electrostatic atomizer 2 air conditioning system 11 discharge electrode 12 counter electrode 13 cooling means 15 introducing pipe 24 air passage 25 outlet

Claims (4)

  1. 放電電極及びこれに対向するとともに放電電極との間に高圧が印加される対向電極と、上記放電電極を冷却して放電電極部分に空気中の水分を基に静電霧化させるための水を生成させる冷却手段と、静電霧化したミストを放出する放出口とを備える静電霧化装置が設けられた空調装置であって、上記静電霧化装置は空調装置における吹き出し口に至る送風路外に配設されているとともにその放出口からのミストを吹き出し口に導く導入管を備えていることを特徴とする静電霧化装置を備えた空調装置。 A counter electrode pressure is applied between the with the discharge electrode to the discharge electrode and the opposite thereto, the discharge electrode portion to cool the discharge electrode water for electrostatically atomizing the basis of moisture in the air and cooling means for generating, the air conditioning apparatus electrostatic atomizer is provided with a discharge port for releasing the electrostatic atomization mist, the above electrostatic atomizer blast reaches the outlet balloon in the air conditioner air conditioner having an electrostatic atomizing device which is characterized in that it comprises a inlet tube for guiding together are disposed outside the road in mist outlet from the outlet.
  2. 上記導入管は帯電しにくい材質からなるフレキシブル管で形成されていることを特徴とする請求項1記載の静電霧化装置を備えた空調装置。 Air conditioner having an electrostatic atomizing device according to claim 1, wherein said inlet pipe is formed by a flexible tube made hardly charged material.
  3. 導入管は空調装置における吹き出し口に至る送風路から分岐されて導入管に調整後の空気の一部を流入させる分岐管が接続されていることを特徴とする請求項1または2記載の静電霧化装置を備えた空調装置。 Inlet electrostatic according to claim 1 or 2, wherein the branch pipe for flowing a part of the air was adjusted to inlet pipe is branched from the air passage leading to the opening blowout in the air conditioning system is connected air conditioning system equipped with a atomizer.
  4. 導入管は径が漸次変化するテーパ状の管であるとともに、放出口がわである一端の断面積よりも他端の先端開口側の断面積が小さくなっていることを特徴とする請求項1記載の静電霧化装置を備えた空調装置。 With the introduction tube is tapered tube diameter changes gradually, claim, characterized in that smaller cross-sectional area of ​​the distal end opening side of the other end than the cross-sectional area of ​​the end outlet is I 1 air conditioner having an electrostatic atomizing device according.
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JP2005363914A JP2007163109A (en) 2005-12-16 2005-12-16 Air conditioner provided with electrostatic atomization device
EP20060834455 EP1980433B1 (en) 2005-12-16 2006-12-11 Air conditioning system with electrostatic atomizing function
PCT/JP2006/324700 WO2007069577A1 (en) 2005-12-16 2006-12-11 Air conditioning system with electrostatic atomizing function
US12095311 US7959717B2 (en) 2005-12-16 2006-12-11 Air conditioning system with electrostatically atomizing function
DE200660016018 DE602006016018D1 (en) 2005-12-16 2006-12-11 Air conditioning with electrostatic atomization

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JP2007161213A (en) * 2005-12-16 2007-06-28 Matsushita Electric Works Ltd Air conditioner provided with electrostatic atomization device
WO2008016180A1 (en) * 2006-08-04 2008-02-07 Panasonic Electric Works Co., Ltd. Electrostatic atomizing apparatus for use in vehicle
WO2008050878A1 (en) * 2006-10-26 2008-05-02 Panasonic Electric Works Co., Ltd. Electrostatically atomizing kit for use in a vehicle
JP2008189246A (en) * 2007-02-07 2008-08-21 Calsonic Kansei Corp Vehicular air conditioner
WO2009008142A1 (en) * 2007-07-09 2009-01-15 Calsonic Kansei Corporation Electrostatically atomizing kit for use in a vehicle
JP2011038747A (en) * 2009-08-18 2011-02-24 Panasonic Electric Works Co Ltd Blower including discharge device
EP2301780A1 (en) 2009-09-29 2011-03-30 Panasonic Electric Works Co., Ltd. Blowing device including an electrostatic atomizer
JP2011513697A (en) * 2008-03-13 2011-04-28 ボルネード・エア・エルエルシー Ultrasonic humidifier
US7959717B2 (en) 2005-12-16 2011-06-14 Panasonic Electric Works Co., Ltd. Air conditioning system with electrostatically atomizing function
JP2011153781A (en) * 2010-01-28 2011-08-11 Panasonic Corp Humidifier
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