1297761 ' 九、發明說明: 【發明所屬之技術領域】 本發明係關於具備產生帶電霧狀微粒之靜電霧化部的 空調裝置。 【先前技術】 以往,已知一種使帶電霧狀微粒散佈之空氣清淨器, 其係以室内空氣之脫臭或除去附著於室内壁面等之臭味為 目的。該種空氣清淨器,例如,已記載於日本公開專利公 報2004-85185號公報中,其主要由具有吸氣口及吐出口之 外殼、過濾器、送風風扇、儲水箱、及以自儲水箱供給之 1 水為原料而產生帶電霧狀微粒之靜電霧化部所構成。靜電 霧化部具備霧化電極及對向電極,在霧化電極及對向電極 之間利用施加高電壓而將自儲水箱供給之水靜電霧化,產 生納米尺寸級之粒徑的帶電霧狀微粒。 在上述構成之空氣清淨器中,當驅動送風風扇時,外 氣介由吸氣口被吸入外殼内,在藉由過濾器除去塵埃後, 被送至靜電霧化部。靜電霧化部所產生之帶電霧狀微粒, 係與藉由過濾器而被淨化之空氣一起而從吐出口放出至外 部。 | 然而,在該空氣清淨器中,因為自儲水箱供給成為帶 電霧狀微粒之原料的水,所以,在長時間連續地使用空氣 清淨器的情況,需要定期地補充水至儲水箱的作業。 【發明内容】 在此,本發明係鑒於上述習知問題點而提出並完成之 發明,其主要目的在於,提供一種使用者無需進行供水作 業而可於長時間内穩定地產生帶電霧狀微粒之空調裝置。 即,本發明之空調裝置,其特徵為包括:具有吸氣口 及吐出口之外殼;產生帶電霧狀微粒之靜電霧化部;及介 由吸氣口將外氣取入外殼内,並從吐出口放出含有帶電霧 1297761 - 狀微粒之空氣的送風風扇,且,靜電霧化部具備:霧化電 極、使空氣中之水份結露而提供結露水於霧化電極的結露 水產生手段、將從結露水產生手段所產生之熱加以散熱的 散熱手段、及對霧化電極施加高電壓而將結露水靜電霧化 的電壓施加手段,以藉由自送風風扇供給之空氣流的一部 分而使帶電霧狀微粒從吐出口放出,並藉由剩餘空氣流而 將散熱手段冷卻之方式,將霧化電極與散熱手段配置於外 殼内。 根據本發明,藉由結露水產生手段捕獲含於空氣中之 水份,並將獲得之結露水作為原料產生帶電霧狀微粒,所 麄以,使用者無需進行供水作業而可於長時間内穩定地產生 9 帶電霧狀微粒。另外,因為設置結露水產生手段而需要將 從結露水產生手段所產生之熱加以散熱,但本發明中係使 用自送風風扇供給之空氣流的一部分來冷卻散熱手段,所 以,藉由使用一台之送風風扇,可同時進行帶電霧狀微粒 自吐出口的放出及散熱手段的冷卻。該結果,無需於外殼 内另外設置冷卻手段,可防止空調裝置之大型化及製造成 本的增加。 其中較佳方式為:上述空調裝置具有將自吸氣口吸引 之空氣淨化的過濾器,過濾器係配置於吸氣口及送風風扇 之間,靜電霧化部係配置於送風風扇與吐出口之間。該情 • 況,係將由過濾器所淨化之空氣輸送至靜電霧化部,所以, 不會於靜電霧化部附著微細之塵埃,而且可與被淨化之空 氣一起自吐出口提供帶電霧狀微粒。 另外,其中較佳方式為:吐出口係由第1吐出口及設 於與第1吐出口不同位置之第2吐出口所構成,霧化電極 係配置於設於送風風扇及第1吐出口之間的第1送風路徑 内,散熱手段係配置於設於送風風扇及第2吐出口之間的 第2送風路徑内。另外,其中較佳方式為:在該構成中, 第2吐出口具有與第1吐出口不同之開口面積,該開口面 積係以自第2吐出口放出之空氣流量形成比自第1吐出口 放出之空氣流量多的方式所決定。在該些情況時,搬送帶 1297761 ,霧狀微粒用之空氣流與冷卻散埶 # 4 給第1送風路徑及第2足風路徑二 為於第2送;的1況的發生。又,因 段之冷卻iV 〇之空I’所以’可提高散熱手 之負ίϊ產ί:較Ϊ2ίί3ί空ΐ裝置具有至少-個 子的雙方自吐s 4: Ji匕霧狀微粒與負離 泰Μ土古4、达·上 出之方式配置於外设内。另外,JL φ $ # ^式為·在該構成中,將使用時帶正電之帝鳄彳;^鹿 吸氣口與送風風扇之間。浮游於 空氣介由吸氣口2帶負電,當含有該些之 帶正電之電氣式隹靡,巧、卢二,帶電之塵埃可由 电孔a木壓過濾态而效率良好地捕獲。 ,子ίίίΆί為將當3;冗:以來構成負 更上方,可防止盘離子產生益配置於比霧化電極 量的減少。 〃π電務狀微粒之接觸引起之負離子供給 負離子產生器來 離子自吐出口的 離子產生器。另 吐出口之上端部 微粒的方式,將 送風風扇之風速 微粒放出至更遠 離子散佈於更廣 構成fi 卜子ί:,佳方式為:在由-對之 m下端部放出g負 ;卜下mu;為:在該構成中,以? 靜電霧化部配置於部=帶電霧狀 方’同時,可自附近使帶電霧狀 範圍,可提高集塵性Ί、離子產生器將負 用以ί自卜‘ 、散|^手:么有f數個散熱片’ 、。之二瑕i蜍向散熱片彼此之間隙,,而 !297761 於ί J片ί =。該情況’可更為提高散 向之ϊΐίΐ的熱片之殼體、殼體之與散熱片對 個,以縫所構成,介由該些細缝之各 該情況,塵埃由續1二:二f氣流人散熱片彼此之間隙。 自送風風扇之而使得冷卻效率下降。另外’ 數個細縫之冷卻效率。又,若將具有複 進行靜電霧化部之維護作|由體上的話,可容易 發明寺jjiij解可藉由實施以下之 【實施方式】 較佳實施形器詳細說明本發明之空調裝置的 要由ίί^ίο空^^〜”圖所示,主 3、產生帶電霧狀微粒含塵^臭味的過濾器 離子產生器6所構成匕、部二,產生負離子之負 1 〇將外氣取入外殼i内,# "'動达風風扇2,介由吸氣口 有帶電霧狀微粒及負離子'之淨il1。1朝外殼外部放出含 如第1(A)〜第& - , 部朝前方突出而緩緩彎曲曰^ ’ =殼1係形成為具有中央 而大大彎曲之背面14的縱^ 、及:中央部朝後方突出 背面14 一側部形成為縱長之^^吸^「10係於外殼之 第1吐出口 11及第2吐出口 σ 另夕吐出口係藉由 f;; f % ^ιι i y i 1297761 空氣利扇i而介由吸氣口10取入外殼1内之 臭過濾哭如L 中之前f貝所示,在藉由預過濾器32、脫 靜電i化部4 ^過濾态31淨化後,其一部分被輸送至 部分被龄ΐ有霧化電極的第1送風路徑ci,剩餘 路徑cfo^p m匕部4之配置有散熱片57的第2送風 分割為第之了游侧的空氣流分配構件16而 風路ίΐΛΓΛί、、0及第2送風路徑仏又,第1送 C2^/^ 1 π 11 ^Γθ1 , ^ 吩k 係形成於达風風扇2與第2吐出口 ΐ2之間。 形成ί 以圖電霧化部4係主要由:前端 露ΐίίί提t給霧:電極的結露水產生單元42 :由'; 霧化電極40\對:卷匕严上口熱5奎产單元43、及對 電極,露水靜電=電之以加加⑼ f^。又,第4(A)圖中,元部前端部 jjyo與對向電極41之間用;霧 形悲中,使用财腐錄良好且廉價之冓件在本貫施 在本實施形態中,結露水產生 50。2帖裝置包括:配設於霧化ΐ22ί = ;ϊ帖裝 50、及由配置於熱電元件50之吸埶 ϋ熱龟70件 端間的熱傳導性良好的絕緣材料你】如電極40之下 料)所構成的吸熱板5 2。另一方η敎如乳〜銘之陶兗材 面側(與霧化電極40的相反侧)配置有‘敎电^件5〇之發熱 兀43係由接觸於熱電元件5〇之發HC。散熱單 土 :))、及自基 1297761 ;^fΐΗ品F1 矢;ϊ 谷易流人散熱片57彼此之間隙門所二灶因為空氣 散熱片57之突出方向盥蕤2以,其較佳方式係以 方向大致平ί的出方方式向 徑C2内。姓霞士本\ Τ務化部4配置於第2送風路 面^向發熱面側產生熱文應此自熱電兀件5 0之吸熱1297761 ' IX. OBJECTS OF THE INVENTION: TECHNICAL FIELD The present invention relates to an air conditioner including an electrostatic atomization unit that generates charged mist particles. [Prior Art] Conventionally, there has been known an air cleaner which disperses charged mist-like particles, which is intended to deodorize indoor air or remove odors adhering to the inner wall surface or the like. This type of air cleaner is described, for example, in Japanese Laid-Open Patent Publication No. 2004-85185, which is mainly provided by an outer casing having an intake port and a discharge port, a filter, a blower fan, a water storage tank, and a self-storage tank. The water is used as a raw material to generate an electrostatic atomization unit with charged mist particles. The electrostatic atomization unit includes an atomizing electrode and a counter electrode, and electrostatically atomizes water supplied from the water storage tank by applying a high voltage between the atomizing electrode and the counter electrode to generate a nano-sized particle size of the charged mist. particle. In the air cleaner of the above configuration, when the blower fan is driven, the outside air is sucked into the casing through the intake port, and after the dust is removed by the filter, it is sent to the electrostatic atomization portion. The charged mist-like particles generated by the electrostatic atomization unit are discharged from the discharge port to the outside together with the air purified by the filter. However, in this air cleaner, since the water which is a raw material for charging the atomized fine particles is supplied from the water storage tank, it is necessary to periodically replenish the water to the water storage tank when the air cleaner is continuously used for a long period of time. SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and a main object thereof is to provide a user who can stably generate charged haze particles for a long period of time without performing a water supply operation. Air conditioning unit. That is, the air conditioning apparatus of the present invention includes: an outer casing having an intake port and a discharge port; an electrostatic atomization portion that generates charged haze particles; and an external air is taken into the outer casing through the suction port, and a discharge fan that contains air having a charged mist of 1297761-like particles, and the electrostatic atomization unit includes: an atomizing electrode, a dew condensation water generating means for dew condensation of air in the air to provide dew condensation water to the atomizing electrode, and a heat dissipating means for dissipating heat from the heat generated by the dew condensation generating means, and a voltage applying means for applying a high voltage to the atomizing electrode to electrostatically atomize the dew condensation water to be charged by a part of the air flow supplied from the air blowing fan The atomized particles are discharged from the discharge port, and the atomizing electrode and the heat radiating means are disposed in the casing so as to cool the heat radiating means by the remaining air flow. According to the present invention, the water contained in the air is captured by the dew condensation water generating means, and the obtained dew condensation water is used as a raw material to generate charged mist-like particles, so that the user can be stabilized for a long period of time without performing a water supply operation. Produce 9 charged aerosol particles. Further, since the dew condensation water generating means is provided, it is necessary to dissipate heat generated by the dew condensation water generating means. However, in the present invention, a part of the air flow supplied from the air blowing fan is used to cool the heat dissipating means, so that one unit is used. The air supply fan can simultaneously discharge the charged mist particles from the discharge port and cool the heat dissipation means. As a result, it is not necessary to separately provide a cooling means in the casing, and it is possible to prevent an increase in the size of the air conditioner and an increase in the manufacturing cost. Preferably, the air conditioner has a filter for purifying air sucked from the air inlet, the filter is disposed between the air inlet and the air blowing fan, and the electrostatic atomizing unit is disposed between the air blowing fan and the air outlet. between. In this case, the air purified by the filter is sent to the electrostatic atomization unit, so that fine dust is not attached to the electrostatic atomization portion, and the charged mist particles are supplied from the discharge port together with the purified air. . Further, in a preferred embodiment, the discharge port is formed by the first discharge port and the second discharge port provided at a position different from the first discharge port, and the atomizing electrode is disposed in the blower fan and the first discharge port. In the first air blowing path, the heat radiating means is disposed in the second air blowing path provided between the air blowing fan and the second discharge port. Further, in a preferred configuration, the second discharge port has an opening area different from that of the first discharge port, and the opening area is released from the first discharge port by the air flow rate formed from the second discharge port. The way the air flow is large is determined. In these cases, the conveyor belt 1297761, the air flow for the mist-like particles and the cooling airflow #4 give the first air supply path and the second foot wind path 2 the second transmission; In addition, due to the cooling of the section iV 〇 I I I'm able to improve the heat of the hand ί ϊ ϊ Ϊ Ϊ Ϊ Ϊ ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί ί : : : : : : : : : : : : : Tugu 4, up and up the way is configured in the peripherals. In addition, JL φ $ # ^ is: In this configuration, the crocodile with positive charge will be used; ^ between the suction port of the deer and the blower fan. Floating in the air through the suction port 2 negatively charged, when containing these positively charged electrical 隹靡, Qiao, Lu two, charged dust can be efficiently captured by the electric hole a wood pressure filtration state. , sub- ί ; 3 ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Negative ion supply caused by contact of 〃 π electric-like particles is supplied to the ion generator of the ion self-discharge outlet. In addition, the way of spouting the upper end of the particle, the wind speed particle of the air supply fan is released to a farther ion, and the ion is dispersed in a wider composition. The best way is to release g negative at the lower end of the -to-m; Mu; is: in this composition, to? The electrostatic atomization part is placed in the part=charged mist shape' at the same time, and the charged mist range can be made from the vicinity, and the dust collecting property can be improved, and the ion generator will be used for the negative force. f number of heat sinks ',. The second 瑕i蜍 is the gap between the heat sinks, and !297761 is in the ί J slice ί =. In this case, the shell of the hot sheet, the shell and the heat sink are opposite each other, and the seam is formed by the slits. According to the respective slits, the dust is continued by the second one: two f The airflow fins are separated from each other. The cooling efficiency is lowered by the self-supply fan. In addition, the cooling efficiency of several slits. Moreover, if the maintenance of the electrostatic atomization unit is performed, the invention can be easily implemented. The following embodiments can be used to describe the air conditioning apparatus of the present invention. As shown in the figure of ίί^ίο空^^~, the main filter 3, which generates the dusty odor of the charged mist particles, constitutes the 匕 and the second part, and generates a negative ion of the negative ion. Into the outer casing i, # " 'moving wind fan 2, through the suction port has charged aerosol particles and negative ions 'the net il1. 1 released to the outside of the outer shell containing the first (A) ~ the first -amp; The part protrudes toward the front and gradually bends 曰 ^ ' = the shell 1 is formed as a longitudinal portion of the back surface 14 having a central portion and greatly curved, and the central portion is formed to be vertically long at the side portion of the back portion 14 which protrudes toward the rear. "10 is the first discharge port 11 and the second discharge port σ of the outer casing. At the same time, the discharge port is taken into the outer casing 1 through the air inlet port 10 by the f; ^% i I 1296761 air air fan i The odor filter is cried as shown in the previous section of L, and is purified by the pre-filter 32 and the destaticization unit 4 The minute portion is transported to the first air blowing path ci which is partially immersed in the atomizing electrode, and the second air blowing portion of the remaining path cfo pm portion 4 in which the fins 57 are disposed is divided into the first air flow distributing member 16 on the side of the swimming side. The wind path ίΐΛΓΛί, 0, and the second air supply path 仏, the first send C2^/^ 1 π 11 ^ Γ θ1 , ^ k k is formed between the wind fan 2 and the second discharge port 2 . The electrospraying section 4 is mainly composed of: front end dew ί ί 给 给 给 : : 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极 电极Electrode, dew static electricity = electric addition (9) f^. In addition, in the 4th (A) diagram, the front end portion jjyo of the element is used between the counter electrode and the counter electrode 41; the fog is sad, and the use of good fortune is good and inexpensive. In the present embodiment, the dew condensation water is generated 50. The 2-position device includes: is disposed on the atomization cassette 22ί =; the ϊ 装 50, and the suction hot turtle 70 disposed on the thermoelectric element 50 The heat-conducting material with good thermal conductivity between the ends of the material, such as the electrode 40, is composed of the heat absorbing plate 52. The other side is 敎 敎 乳 乳 铭 铭 铭 铭 铭 铭 铭 铭 铭 铭The opposite side of the chemical electrode 40 is provided with a heat generating element 43 of the electric device 5, which is made of a contact with the thermoelectric element 5, a heat-dissipating single earth:)), and a self-base 1297761;谷 谷谷流流散热片57The gap between the two doors is due to the protruding direction of the air fins 盥蕤2, and the preferred way is to use the direction of the direction of the generally flat way to the diameter C2. The service unit 4 is disposed on the second air supply road surface to generate heat from the heat-generating surface side.
iS化it以Γ,以使*化tV4。冗ritG 的產生所需之水的。供^為1^務化部4之帶電霧狀微粒 高電加ί:14電化Μ生:狀態下,當藉由 電極40與對向電極^ 9負士極之方式在霧化 霧化而產生帶電霧爿大彳崎抑 ^ 包壓日守,結露水被靜電 |以使結露加於電極間之高Ϊ j有粒徑為納米,藉此,產生 電霧狀微粒係介由對向電極4!之中^^放戶工產至^帶 以,ίΐ在中:言j份結露來使用,所 =型化。另外,因為無需定器的大幅 ,電置化部4的冷卻,所以立的放出與靜 ==比可減小空_、』之尺力=;以 狀微粒之靜電霧κ,的電二^霖4出,使產生有帶電霧 内,使設有散熱片57之靜電1化弟1送風路徑ci 运風路徑C2㈣方式,使用類^栓:!牛第固2 1297761 • 疋於外殼内之指定位置。又,‘哲 之靜電霧化部4的形成你番5圖所示,本實施形態 大致中央部附近。 置’係在縱長之吐出口(11,12)的 本實施形態之空惫洛、、备翌 示,在第1送風路徑(^内/自I二忽f 6(A)〜第6(D}圖所 相隔指定距離配置之一斟上靜電霧化部4的上下兩侧 态6係由針狀之放電電極 、、1轰生态6。各負離子產生 電極間施加負之高電壓 备、°^極(未圖示)、於該些 成。所產生之負離子,# ,負離子的電壓施加電路所構 此,在自縱長之第1吐出、口 n出口 11放出於外部。因 流的大致中央部,含有雜ώ之層狀的被淨化的空氣 1狀微粒,在該空氣斤產生之帶電霧 負離子而帶有負電,當此g筌曰係稭由被放出之 j,電氣式集塵過遽器而 子產生态6的設置係任意,可省^良好地木塵。又,負離 於外殼1上清淨器之動作。當操作設 ,P'ii2空 1第1送風路徑C1,而剩餘彡分^ 二、口P刀被輸送至 電極4〇上產生結露水,同時藉由名fU'f而於霧化 ΐΓίί ί帶甘電霧狀微粒。另外,藉'由負Μ 產生負離子。其*士罢,白筮7丄山 丁座玍口口6亦 還-起放出帶電°霧狀微粒及負離子化之空氣外, 中之臭氣成份的:臭⑽ 之犬乱成h的除去、室内空間之除菌等。又,74 徑C1 ^运風量係設定為比第2送風路徑c2 ,=風路 fd!^4中可穩定地使結露水靜電霧化。U面 可有效冷卻散熱單元43。 夕伋乎化的工風,所以,… 13 1297761 .的觀2},’52111^,4之散熱單元43的冷卻效率 由内部可收容散^單1元之一例。該導引構件係 =,在與散熱片17之前端_一口之箱狀殼體70所構 72。自送風風扇2#仏^^%對向〃^/壁面設置有複數個細縫 侵入殼體内,苴钍杲,可1日體内,可某種程度阻止塵埃 得冷卻效率下效隹5於散熱片而使 將形成有複數個細縫72之 上1圖所不,若 70上的話,可容易 為I自由拆裝於殼體 72產生堵塞的情況的清丁心言“3之㈣ 另外除與散熱片57之前端對|^1|μ 1送風路徑C1側之殼體壁面亦机^向^壁面外,在位於第 將第2送風路徑C2|第1^=置_細縫,可介由該細縫而 時,流入散熱ί ί7 ί ^之1 部分連。該情況 熱片的熱而被加熱後,自與殼體’係^^藉由來自散 之開口及連通於第1 i关厨玫/ τ< r 吐出口 12對向 出’所以’可更為提高散熱片57之:骛.:$雙方平順地流 子產;§以對之㈣ 離子產生器6配置於靜雷露介邱4 $ 7 6的情況,以將負 電霧狀微粒更輕,所:,使佳;£離 務狀微粒所吸收。又,在上述實施 ^ 子難以被帶電 :之負離子被帶電霧狀微粒所吸收里㈣^ 14 .科 Μ: 1297761 • π 另外’如第10圖所示,以自縱旦+細, η,叉放t含有帶電霧狀微粒之淨化I兔弟白亡出σ 11之 11之大致中央部及上减邱於工乳,自第1吐出口 式,將負離子i 離子之淨化空氣的方 佳。 H 6及^務化部4配置料殼内為較 位置的負Ϊϋ1生圖^^不橫::^立於靜電霧化部4之上下 離子產生哭j疋,如第12圖所示,亦可將負 高度ί生“及靜電霧化部4’橫向錯開地配置於!冗爲 ,水ί 1卜單i 將態霧中,::使用珀亍帖裝置作為結 器。又,亦可ίί離子其他之冷卻裝置或熱交換 内。 ^賴子產“ 6配置於第2送風路徑C2 (產業上之可利用性) 如上述’根據本發明处 份結露以補給成為帶因為使空氣中之水 冷卻散熱片,所二扇供給之空氣的一部分來 衣置之小型化、省能及價格性能比的提高。 Ή式集塵器務32册備5負離子產生器及 游霉菌或惡臭,同昧,由▼龟務狀微粒除去室内之浮 塵吸引入空“裝置:可藉由負離子而帶有負電之灰 加以捕獲。因此,驻^猎,页正電之電氣式集塵器有效地 臭、塵埃除去效果精由一 口之空調裝置可獲得防霉菌、消 如此,本發明得白光^尸 適之作業空間及居‘处二公4淨器起,作為可輕易實現快 待。 二間用的空調裝置,其利用正受到期iS turns it to Γ to make *VT4. Redundant ritG produces the water needed. The charged mist-like particles of the chemical processing unit 4 are high-voltage plus 14: illuminating twins: in the state, when the electrode 40 and the counter electrode are negative, the atomization is generated by atomization atomization. The charged smog 爿 彳 抑 ^ 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包 包! ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ In addition, since the cooling of the electric setting unit 4 is not required to be large, the vertical discharge and the static== ratio can reduce the sizing force of the empty _, 』, and the electrostatic λ of the granules. Lin 4 out, so that there is a charged fog inside, so that the static electricity provided with the heat sink 57 1 wind brother 1 air supply path ci wind path C2 (four) way, use class ^ bolt:!牛固固 2 1297761 • 疋 in the specified position inside the casing. Further, in the case of the formation of the electrostatic atomization unit 4 of the philosopher, the present embodiment is substantially in the vicinity of the center portion. In the first embodiment of the present invention, the air supply path (11, 12) is displayed in the first air supply path (in the second air supply path). D} The map is separated by a specified distance. One of the upper and lower sides of the electrostatic atomization unit 4 is composed of a needle-shaped discharge electrode and a bombing ecology 6. A negative high voltage is applied between the negative ion generating electrodes. The pole (not shown) is formed by the voltage application circuit of the negative ion, #, and negative ions generated, and is discharged to the outside from the first discharge from the vertical length and the outlet 11 at the port n. The central part, the layered purified air-like particles containing the scorpion, which is negatively charged with the charged haze negative ions generated by the air enthalpy, and when the stalk is released, the electric dust collection The setting of the device 6 is arbitrary, and the wood dust can be saved well. In addition, the action of the cleaner on the outer casing 1 is negative. When the operation is set, P'ii2 is empty and the first air supply path C1 is left.彡 分 ^ 2, the mouth P knife is transported to the electrode 4 产生 on the dew condensation water, while by the name fU'f in the atomization ΐΓ ίί ί with the electric aerosol particles. In addition, by the negative Μ to produce negative ions. Its * Shi, white 筮 7 丄 丄 玍 玍 6 6 亦 亦 亦 亦 亦 亦 亦 亦 亦 ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° ° 雾 雾 雾The stinky (10) dog is chaotically removed, the indoor space is removed, etc. The 74-diameter C1 ^ transport air volume is set to be more stable than the second air supply path c2 and the air path fd! Atomization. U-face can effectively cool the heat-dissipating unit 43. The wind of the evening, so, ... 13 1297761 . View 2}, '52111^, 4 cooling unit 43 cooling efficiency can be accommodated by the internal One example of 1 yuan. The guiding member is = 72 in the box-shaped casing 70 with the front end of the fins 17. The self-supply fan 2#仏^^% is provided with a plurality of opposite 〃^/wall faces. The slit is intruded into the casing, and the crucible can be prevented from cooling the efficiency of the dust to a certain extent within one day. 5 The heat sink is formed so that a plurality of slits 72 are formed. If it is 70, it can be easily disassembled in the case of the case 72, and the case of the blockage is clarified. "3 (4) In addition to the front end of the heat sink 57, the |^1|μ 1 air supply The wall surface of the casing on the side of the diameter C1 is also located outside the wall surface, and is located at the second air supply path C2|1st = _ slit, which can flow into the heat dissipation layer when passing through the sipe 1 part of the connection. In this case, the heat of the hot sheet is heated, and the housing is connected to the housing by the opening of the opening and the first opening of the kitchen opening / τ < r spout 12 'Can improve the heat sink 57: 骛.: $ both sides smoothly flow the child; § with the (four) ion generator 6 in the case of Jing Lei Lu Jieqiu 4 $ 7 6 to negatively atomized particles Lighter, what:: makes it better; £ is absorbed by the particles. In addition, in the above implementation, it is difficult to be charged: the negative ions are absorbed by the charged atomic particles (4)^14. Science: 1297761 • π In addition, as shown in Fig. 10, from the vertical denier + fine, η, fork The t-containing purification of the charged mist-like particles is the best central part of the 11th sigma 11 and the lowering of the Qiu in the work milk. From the first discharge mode, the negative ion i ion purifies the air. The H 6 and the chemical processing unit 4 are arranged in the material casing for the relative position of the negative Ϊϋ 1 raw map ^^ not horizontal:: ^ standing on the electrostatic atomization portion 4, the lower ions generate crying j疋, as shown in Fig. 12, The negative height ί "" and the electrostatic atomizing portion 4' can be arranged laterally offset by the redundancy; the water ί 1 bu yi i will be in the state of the mist, and: the 亍 亍 装置 device can be used as a knotter. Other cooling devices or heat exchangers. ^ Laizi production "6 is placed in the second air supply path C2 (industrial availability). As described above, the condensation is applied according to the present invention to replenish the belt because the water in the air is cooled. The film, the part of the two supplied air, the miniaturization, energy saving and price performance ratio of the clothes. Ή 集 集 32 32 32 32 32 32 32 32 32 32 32 32 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负 负Therefore, the electric dust collector of the shovel, the positive electric smear and the dust removal effect can be obtained by a one-piece air conditioner, and the invention can obtain the work space and the living space of the white light and the corpse. It is easy to realize fast service as the second public air cleaner.
S 15 1297761 : 【圖式簡單說明】 第1(A)〜(E)圖為本發明之較佳實施形態之空氪清淨器的 俯視圖、前視圖、背視圖及左右侧視圖。 第2(A)圖為空氣清淨器之水平剖視圖,(B)圖為顯示空氣清 淨器内之空氣流的概要圖。 第3(A)圖為配置於空氣清淨器内之脫臭過濾器及集塵過濾 器之立體圖,(B)圖為脫臭過濾器之構造的示意 圖,(C)圖為集塵過濾器之構造的示意圖。 第4(A)〜(C)圖為靜電霧化部之内部立體圖,外部立體圖及 ^ 側視圖。 第5圖為顯示靜電霧化部之安裝位置的立體圖。 第6(A)圖為顯示靜電霧化部與負離子產生器之位置的空氣 清淨器的前視圖,(B)〜(D)圖為在(A)圖中由圓 P1〜P3所示部分之放大圖。 第7圖為顯示收容有散熱片之殼體的安裝狀態的立體圖。 第8圖為顯示收容有散熱片之殼體的安裝狀態的俯視圖。 第9圖為顯示收容有散熱片之殼體的變化例的立體圖。 第10圖為上述實施形態之變化例的空氣清淨器的前視圖。 ® 第11圖為上述實施形態之其他變化例的空氣清淨器的前視 圖。 第12圖為上述實施形態之又一變化例的空氣清淨器的前視 圖0 【主要元件符號說明】 10 吸氣口 11,12 吐出口 1 外殼 2 送風風扇 16S 15 1297761 : BRIEF DESCRIPTION OF THE DRAWINGS The first (A) to (E) drawings are a plan view, a front view, a back view, and left and right side views of the open cleaner of the preferred embodiment of the present invention. Figure 2(A) is a horizontal sectional view of the air cleaner, and (B) is a schematic view showing the air flow in the air cleaner. Fig. 3(A) is a perspective view of the deodorizing filter and the dust collecting filter disposed in the air cleaner, (B) is a schematic view showing the structure of the deodorizing filter, and (C) is a dust collecting filter. Schematic diagram of the construction. 4(A) to (C) are internal perspective views of the electrostatic atomization unit, an external perspective view, and a side view. Fig. 5 is a perspective view showing a mounting position of the electrostatic atomization unit. Fig. 6(A) is a front view of the air cleaner showing the positions of the electrostatic atomization unit and the negative ion generator, and (B) to (D) are the portions indicated by the circles P1 to P3 in the diagram (A). Enlarged image. Fig. 7 is a perspective view showing a mounted state of a casing in which a heat sink is housed. Fig. 8 is a plan view showing a mounted state of a casing in which a heat sink is housed. Fig. 9 is a perspective view showing a modification of the casing in which the heat sink is housed. Fig. 10 is a front elevational view showing the air cleaner of the modification of the above embodiment. Fig. 11 is a front elevational view showing the air cleaner of another modification of the above embodiment. Fig. 12 is a front view of an air cleaner according to still another modification of the above embodiment. Fig. 0 [Description of main components] 10 intake port 11, 12 discharge port 1 outer casing 2 air supply fan 16