201103635 六、發明說明: 【發明所屬之技術領域】 【先有關於一種具備離子發生裝置的美容裝置。 照:獻力生裝置的美容裝置(例如參 具備送風㈣①加濕器)’在該裝置的内部 [專利^叙 、離子利用送風傳播而更遠地飛散。 [專寿文獻^日本特開2005—_78號公報 考慮將送風裳風傳播而更遠地飛散’可以 帶來送風裝置大型化、能力,但通過該對策, 沾这壯® 杲谷裝置的大型化。因而,在有限 的送風能力之巾如何實麟子的舰距離的提 同成為了研究課題。 【發明内容】 2明是為了解決上述課題而做出的 ,其目的是提供 占·^ ^置能夠抑制送風裝置的大型化、並且實現生 成的離子的飛散距離的提高。 ^ 了驗上述問題’技術方案1所述的發明是一種美 具備生成離子的離子發生裝置、和從上述離子發 ^,、上游侧進行用來將生成的離子釋放的送風的送風 ^ 使利用該送風而傳播的離子經由送風通路從釋放口 部,其特徵在於,該美容裝置形成為,使上述離 放㈣變Γ軸的上料麟賴祕面積朝向上述釋 201103635 在該發明中,由於形成為,使離子發生裝置下游 达風通路的通路面積朝向釋放口而變小,所以由送風裝置 所生成的送風的流速較高。又,送輯路的通路面積 使送風及離子集中㈣合,離子容㈣料風而傳播 以能夠使生成的離子中的許多離子利用送風傳播。即, 生成的離子中的許多離子能_賴高了流 播,從釋放口更遠地釋放。 疋l而傳 技術方案2所述的發明是在技術方案i所述的美 置中,其特徵在於,上述送風通路的至少一部分荖^ 離子發生裝置而配置在兩側。 κ 在該發明中,由於送風通路的至少一部分失著離子發 生裝置而配置在兩側’所以由送風|置生成的送風被分配 到離子發生裝置的賴的送風通路巾而通過。β卩 送 風從離子發生裝置的兩側包_放出的離子而通過所以 離子容易利用該送風而傳播,此外,通過使兩侧的 同等,將送風的紊亂抑制得較小,所以能夠效的 離子釋放。 nr双午扪 技術方案3所述的發明是在技術方案2所述的 置中’其特徵在於,在上獅子發线置中具備供電用^ 弓=,該引線從上述送風通_魄财向觀察 佈 線者。 在該發明中,由於在離子發生裳置中具備的 線從送風通路⑽送風方向觀察對稱地佈線著,所 有利於形成使失著離子發生|置魏置在兩側的送風^路 6 201103635 為對稱形狀即、使對兩侧分配的送風為同等的結構。 4所述的發明是在技術方案1〜3所述的美容 j ^核在於,上述送風通路—_成在上述離子 發生裝置及上述送風裝置中的某—個的殼體部件上。 番财’由於送風通路—體地形成在離子發生裝 的某一個的殼體部件上,所以能夠實現美容 f置的轉輯低。此外,由於送風通路部分的結構變得 以能夠減少送風上轉礙物。即,生成的送風的 "〇·動變付更平順’能財利於高效率的離子釋放。 技術方案5所述的發明是在技術方案丨〜3所述的美容 特徵在於’在上述送風通路之外還具備從丄述 、至、帛向上述釋放口而進行直接送風的第2送風通 路0 在該發明中,由於具備從送風裝置朝向釋放口進行直 接送風的第2送風通路,所以由送職置生成的送風的一 部分被直接供給_子歡σ。a此,麵子釋放口附近 加上了新的送風而使風速增加,能夠_送風而傳播 遠地釋放離子。 技術方案6所述的發明是在技術方案1〜3所述的美容 裝置中,其賴在於’將上雜子發生n送風裝置、 送風通路及釋放口一體地構成為離子釋放單元,在上述離 子釋放單元巾,上述離子發生裝置及送顺置並^一 體地形成有上述送風通路的單元殼體(unit case)、和具有上 述釋放π的喷嘴部件單獨地形成;在上述單元殼體與上述 201103635 噴嘴部件之間夾著密封部件, 以密閉狀態連接著。 上述送風通路與上述釋放口 f該發财,離子發生裝置、送風裝置、送風通路及 體地構絲離子釋放單元,—體地形成有離子發 的送風裝置及送風通路的單元殼體,和具有釋放口 地(分開地,獨立地)形成。在這樣的單元 料之·著㈣料,魏通路與釋放口以 ^狀態連接著,所以送財會從這裏㈣,能夠高 地進行離子釋放。 技術方案7所述的發明是在技術方案6所述的美容裝 置中其特徵在於,以筒狀突設在上述喷嘴部件上的離子 釋放噴嘴在具有上述釋心的_面上朝向上述離子 放方向擴開。 在該發明中,以筒狀突設在噴嘴部件上的離子釋放喷 嘴在具有釋放π的關©上朝向離子的釋放方向擴開,所 以生成的離子能夠沿著擴開的其内側面向大範圍釋放。 技術方案8所述的發明是在技術方案丨〜3所述的美容 裝置中’其特徵在於,在上述送風通路巾,具備吸附著離 子生成時產生的副產物的吸附部件。 ,該發明中,通過在送風通路中具備吸附材料,能夠 吸附著離子生成時產生的副產物(臭氧等),並且能夠釋 放所生成的離子。由此,能夠進一步抑制有害的副產物等 的釋放’能夠有利於安全性及可靠性的提高。 技術方案9所述的發明是在技術方案丨〜3所述的美容 8 201103635 子發生裝置由靜電霧化裝置 驻番、Γ 霧冑置具備通過放電電極進行放電的放電 對上毅電電極供給液體的㈣供給機構,並且 生成帶電微粒子水作為上述離子。 明中,離子發生裝置由靜電霧化裝置構成,通 t ft、給機構供給了液體的放電裝置的放電電極來放 呈f帶電微粒子水以作為離子。gp,將能夠得到較高 =^ 健康作用的帶電微粒子水朝向使用者高效率 技術方tlG所相發岐在麟方案9所賴美容裝 一其特徵在於,上述液體供給機構由通過珀耳帖(peltier) 元件的冷卻動作使上述放電裝置的放 露水而進行供給的冷卻裝置構成。 路办戍、·。 在該發明中,通過珀耳帖元件將放電電極冷卻,使放 電電極從空氣巾的水分產生結露,將該結露相於靜電霧 化。由此’能夠錢用水箱等的儲存機構而得到用於靜電 霧化的液體,所以能夠實現美容裝置的小型化、以 每次供給液體的工時。 【發明的效果】 根據本發明,能夠提供一種美容裝置,能夠抑制送風 裝置的大魏、並且能夠實現所生成的離子的·距 提高。 ▲為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂,下文特舉較佳實施例,並配合所附圖式,作詳細說 9 201103635 明如下 【實施方式】 以下,按照附圖來說明將本發明具體化的一·實施 如圖1〜圖3所示,本實施方式的美容穿 : 成為圓錐台狀的腳部2、和固定在該腳部2 ^上^敕 體形成為大致球狀的餘3。在機殼3的内部 古 成美容竣置1的各種結構部件。 谷有構 在機殼3的前面中央部,設有上下大a# ρ 狀的開口部3a’設在_ 3内的離子釋放^ =圓形 離子釋放喷嘴4從該開,突:二的= ^放噴嘴4的内側,設有釋放離子的離子釋故J在離 釋放嘴嘴4釋放的離子的釋放方向。δβ ρ讀離子 在使用者面對離子釋放喷嘴4觀 :下的機殼3的頂部的右方向上,具;==情 使用者搬運美容裝置丨=:=方’安裝有· 如圖2及圖3所示,在德赵2 内側面的規定部位上固定著有二= = ::: 201103635 件11,該支撐部件11收容並支撐離子釋放單元10的後端 側部分。在支撐部件11具備的左右一對側壁l2a、12b上, 分別設有軸承凹部13a、13b,嵌合著從離子釋放單元1〇 的單元殼體l〇a的左右兩側突出而形成的軸承凸部Ua、 lib,為了變更離子的釋放方向,離子釋放單元1〇可沿上 下方向傾斜運動地被支撐著。該離子釋放單元1〇的沿上下 方向的傾斜運動為:設定軸承凹部13a、13b的位置以使得 通過呈球狀的機殼3的中心的水平線成為其傾斜運動軸, 並由機殼3内的規定部位i4a、14b (參照圖2)通過限制 來決定其傾斜運動範圍。另外,在支撐部件u的軸承凹部 13a 13b的周圍女裝有金屬彈簧ua、Mb’離子釋放單元 10通過該金屬彈簧15a、15b的向左右兩側面的推壓所帶 來的摩擦力的增大,從錢±下方向賴斜運動角度可保 持在任轰的备疫。 離子釋放單元10配置為,從機殼3的中央部朝向開口 部3a延伸’且構成為具備離子發生裝置2()及送風裝置 30,以便將生成_子彻送風傳播而向外部釋放。詳細 地講,如圖2〜圖5所示,離子釋放單元1()具有大致四方 = : ’在該單元殼體心的後端部上配置 ===ΪΪ送風裝置3G。送風裝置%使風扇旋 # 3 在上述腳部2的中央部形成有與機 设3的内部空間連接的多個空氣取入口 31,送風裝置30 通過經由該空氣取入口 31你_。 直川 而產生送風。在該送風的下面侧取入外界氣體 、展置30的下游設有離子發生裝置 201103635 風裝置3G的軸線上’分別排列配置有離子發生裝 離羊經裳置21、其放電裝置22(放電電極23)、和 離子釋放噴嘴4。 =子發生裝置20由靜電霧化裝置構成,且具備放電裝 冷部裝置21。在放電裝置22中,使用朝向離子釋 4的釋放口 43的中心部突出的針狀的放電電極 和配置在該放電電極23的前端側並且在該放電電極 ^延長線上設有貫軌%的對置電極%而構成。在 電極23的基端部(送風裝置3〇側)並列設置有冷卻 二21’且配置為使構成該冷卻裝置義耳帖(剛… j 25的冷卻面接觸在放電電極23上。在料帖元件μ ^ :部面的相反側的放熱面上安農有放熱翅片伽)26,將 裝置30生成的送風的—部分作為冷卻風而提供給 敌熱翅片26。 這樣的離子發生裝置2G對放電電極23與對置電極24 加高電壓而在放電電極23周圍產_放電,並且 耳帖元件25的驅動將放電電極23冷卻而在該放 而離子彳面上產生結露’ Μ成由結露柄靜電霧化 =子化的納米尺寸的微粒子水(帶電微粒子水)。 微粒子水能夠浸透到使用者的皮膚的角質層表面的 丄如果浸潤到使用者的皮膚中,則帶來張力,能夠 传到車又向的美容作用或健康作用。 23發該離子發生裝置2〇中,由於使用使放電電極 發生結露畔紐電電極23供給水分_耳帖元件 12 201103635 25,所料需要水箱等進行 1的小型輕量化、及不需要、> 子’成為實現美容裝置 此外,通過將送風m ^的卫時的結構。 上游侧,不會妨礙由離^ $置在離子發生裝置20的 向送顺置30行進而能夠釋^ 2G生成的帶電微粒子水 2。的周圍的 釋放噴嘴4丨輯_、、, n f讀付生裝置2G到離子 發生農置20之門的風路仏。送風裝置3〇與離子 裝置30生杰沾、主 通路面積逐漸減小,提南由送風 離子釋放噴嘴4之風門的:以。此外’在離子發生裝置20與 置24_子概^^=1+,也麟子發生裝 而描古料逐義f、通路面積逐漸減小 20二的流速’此外’由於送風和由離子發生裝置 叙早!^帶電微粒子水射在該鮮部分處,所以帶電微 傳播7。士 送風+而能夠使許多的微粒子水利用送風而 遠地釋1匕,將更多的帶電微粒子水從離子釋放噴嘴4更 絲’如圖6所示,在包圍離子發生裝置20 殼體32上,一触π _u、+ 鄰 οβ 體形成有上述送風通路31b。由此,離子釋 早凡1G的部件數較少就足夠’該單元1。雜裝變得容 。此外,由於離子釋放單元10的結構變得簡潔,所以= 風方面的障礙物減少,送風喊動變得平順,能夠有利於 13 201103635 高效率的離子釋放。 此外’送風通路31b夾著離子發生裝置2〇而在上 =兩侧相互分隔地設有多個(換言之,由分隔壁 X生裳置20),且構成為從該送風通路3lb内的送 ,觀察時左右為大致線對稱。由此,由送風生 風通路31b中被左右對稱地分配,送風的風量及 左右為同樣,所以在釋放離子的下游側的送風通路 c中送風的紊亂變得更小。因此,送風從上下左右 側包圍所釋放的離子而通過,所以容易利用送風而傳播, 此外將送風的統抑觸較小,所以賴進行高效率的離 子釋放。 此外,從離子發生裝置2〇的周圍,延伸有用來對該離 子發生裝置2G等進行供電的各種供電用引線35、36,從 放電電極23的前端側觀察,—個引線35從離子發生裝置 2〇的左側向上方延伸,另一個引線36從離子發生裝置20 的右側向上方延伸。各引線35、36佈線成相對於離子發生 裝置2〇的中心(放電電極23)大致對稱,有利於上述送 風通路31b的左右兩侧的對稱形狀。 、由送風裝置30生成並通過送風通路31a的送風的一部 流入到包圍離子發生裝置20的外輪廓殼體32的設在 达風裝置30側的副流路33 (參照圖5)中,將適當量的送 風向離子發生裝置2〇的放電電極23供給。經過了副流路 3的送風的一部分容易使附著在放電電極23的前端上的 、’°露不會被吹散,而使由該放電電極23的放電所生成的帶 201103635 電微粒子水容易利用送風而傳播,由此也有利於更多地釋 放帶電微粒子水。 如圖2及圖3戶斤示,在單元殼體1〇a的前端部上,一 體地设杨财上雜伟放倾4㈣嘴蓋(_r)4b。 喷嘴蓋4b形成為不論離子釋放單元1〇為怎樣的傾斜運動 角度都將機殼3的開口部3a卵的大小,此外,通過形成 與殼體3的内側面一致的規定的球面形狀,喷嘴|4b總是 抵接在該殼體3的内侧面的開口部%的周緣部分上。如上 所述,離子釋放單元1G _斜勒㈣通過呈球狀的機殼 3的中心的水平料其傾斜運練,所以喷嘴蓋仆能夠總 是密接在機殼3的内側面上而活動,使設在機殼3上的開 口部3a總為封設在嘴嘴蓋#上醜子釋放喷嘴 4是以其内側面(離子釋放口 4〇朝向其釋放方向而擴開, 使釋放出的帶紐粒子水向大範圍地擴散。 經姑^制fn容裝置1的動作的控制電路⑽安裝在支據離子 #部件U的底面的背面侧。在主體腳部 電插銷41 (參照圖2),能夠插入未圖示的 電源適配态(adaptor)。通過該電源適配 線42而對控制電路4〇進行電源供給。 並且,如果使用者按下操作按鈕5 的開啟關等的操作錢從鋪作触5 子發生裝置20及送風^ f 號來控制離 L裒置30。即,如果該择作仿妹么姑 啟㈣的狀態,則在離子發生裝置2〇中對放電電極^施 15 201103635 加放電用的高電麗,並且對拍耳帖元 的驅動電壓,此外射逆 &加冷部動作用 愿。此外,此7施加風雜制的驅動電 電路45進行LED顯_邦❿與控制電路40連接的顯示 pi鲂五〇顯不邛6的點亮控制,在摔作按釦s # 開啟操作時將LE :作知益5的 顯示部6的滅燈,##丄,广在關操作時進行LED 瑪1且對使用者進行動作狀態的報告。 者’說明本實施方式的特徵性的作用效果。 的下.似在本實施m形成為,使離子射裝置2〇 所以提風通路31c的通路面積朝向釋放口4a變小’ 二=:送風裝置30生成的送風的流速。此外,通過 路31c的通路面積變小,送風及離子集中混合而容 易^用^來傳播,所以能夠使生成的離子中的許多離子 傳播°即’所生成的離子中的許多離子能夠利 机、的送風而傳播,從釋放口如更遠地釋放能夠 抑制送風展置30的大型化、並且實現所生成的離子的飛散 距離的提高。 (2)在本實施方式中’送風通路31b夾著離子發生裝 置20而在上下左右的兩側相互分隔地設有多個,且構成 為’從該送風通路31b中的送風方向觀察時左右為大致線 對稱。由此,使送風通過,以使得所釋放的離子從離子發 生裝置的兩侧被包圍,所以容易利用該送風來傳播,由送 風裝置30生成的送風在送風通路31b中被左右對稱地分 配,送風的風量及風速在左右為同樣,送風的紊亂被抑制 件更小,所以此夠進行而效率的離子釋放。 201103635201103635 VI. Description of the invention: [Technical field to which the invention pertains] [First relates to a cosmetic device having an ion generating device. Photograph: A cosmetic device that provides a force-generating device (for example, a ventilation device (4) 1 humidifier) is used inside the device. [Patents are disclosed, and ions are scattered farther away by the use of air. [Specially-received documents ^JP-A-2005-_78 bulletin Considering that the wind is spread and spread farther away," the air blower can be increased in size and capacity, but this measure is used to increase the size of the Zhuanggu-Shibuya device. Therefore, the combination of the ship's distance with the limited air supply capacity has become a research topic. In order to solve the above problems, it is an object of the invention to provide an increase in the size of the air blowing device and an increase in the scattering distance of the generated ions. The invention described in the first aspect of the invention is characterized in that the ion generating device having the generated ions and the air blowing device for releasing the generated ions from the upstream side are used. The ion that is transmitted by the air is discharged from the mouth through the air passage, and the beauty device is formed such that the area of the upper side of the axis is changed toward the above-mentioned release 201103635. Since the passage area of the wind passage downstream of the ion generator is made smaller toward the discharge port, the flow rate of the blow air generated by the air blower is high. Further, the passage area of the transfer path is such that the air supply and the ions are concentrated (four), and the ion volume (four) is propagated by the material wind so that many of the generated ions can be propagated by the air. That is, many of the ions in the generated ions can be released from the release port. The invention according to claim 2 is characterized in that, in the aspect of the invention, at least a part of the air passage of the air passage is disposed on both sides. In the present invention, at least a part of the air passages are disposed on both sides due to the loss of the ion generating device, so that the air blown by the air blowing is distributed to the air passage of the ion generating device. Since the β 卩 blowing air passes through the ions released from both sides of the ion generating device, the ions are easily propagated by the air blowing, and the turbulence of the air blowing is suppressed to be small by equalizing both sides, so that effective ion release is possible. . The invention described in claim 3 is the centering device according to claim 2, wherein the upper lion hairline is provided with a power supply cable, and the lead wire is supplied from the air supply. Observe the router. In the present invention, since the wires provided in the ion generating skirt are symmetrically arranged from the air blowing direction of the air blowing passage (10), all of the air blowing paths 6 which are advantageous for forming the devitrified ions to be placed on both sides are 201103635. The symmetrical shape is a structure in which the air distribution distributed to both sides is equivalent. According to a fourth aspect of the invention, the invention is characterized in that the air passage is formed in a casing member of the ion generating device and the air blowing device. Since the wind supply is formed in the casing member of one of the ion generating devices, the transfer of the beauty can be achieved. Further, since the structure of the air supply passage portion becomes so as to be able to reduce the airflow on the object. That is to say, the generated air supply "〇·动动变付平平顺& can be profitable for efficient ion release. The invention according to claim 5 is characterized in that, in addition to the air blowing passage, a second air blowing passage that directly blows air from the above-described air outlet to the above-mentioned discharge port is provided. In the present invention, since the second air blowing passage that directly blows air from the air blowing device toward the discharge port is provided, a part of the air blow generated by the delivery device is directly supplied to the child squirrel σ. In this case, a new air supply is added near the face release port to increase the wind speed, and the air can be transmitted to the remote to release ions. The invention according to claim 6 is the beauty device according to any one of claims 1 to 3, which is characterized in that: the upper air generating device, the air blowing passage, and the discharge port are integrally formed as an ion releasing unit, and the ion is a unit casing, the unit case in which the ion generating device is integrally formed with the air passage, and a nozzle member having the release π formed separately; the unit casing and the above-mentioned 201103635 A sealing member is interposed between the nozzle members, and is connected in a sealed state. The air supply passage and the discharge port f are rich, and the ion generating device, the air blowing device, the air blowing passage, and the ground wire ion releasing unit form a unit casing of the air blowing device and the air blowing passage, and have a unit casing The release mouth is formed (separately, independently). In the case of such a unit material (4), the Wei path and the release port are connected in the ^ state, so the money can be released from here (4). According to a seventh aspect of the invention, in the beauty device of the sixth aspect, the ion releasing nozzle that is protruded from the nozzle member in a cylindrical shape faces the ion discharge direction on the _ surface having the eccentricity Expand. In the invention, the ion releasing nozzle projecting in a cylindrical shape on the nozzle member is expanded toward the release direction of the ions on the release π, so that the generated ions can be released in a wide range along the expanded inner side thereof. . The invention according to claim 8 is characterized in that, in the beauty device according to the invention, the air supply duct has an adsorption member that adsorbs by-products generated when ions are generated. In the present invention, by providing the adsorbent material in the air passage, by-products (ozone or the like) generated during ion generation can be adsorbed, and the generated ions can be released. Thereby, it is possible to further suppress the release of harmful by-products and the like, which can contribute to improvement in safety and reliability. According to the invention of claim 9, the beauty 8 201103635 sub-generating device according to the first aspect of the invention is provided by an electrostatic atomizing device, and the discharge device is provided with a discharge through the discharge electrode to supply a liquid to the upper electric electrode. (4) Supply mechanism, and generate charged fine particle water as the above ion. In the present invention, the ion generating device is composed of an electrostatic atomizing device, and discharge electrodes of a discharge device that supplies a liquid to the mechanism are used to discharge f-charged fine particle water as ions. Gp, will be able to get higher = ^ health effect of charged micro-particle water towards the user's high-efficiency technology side tlG 岐 岐 麟 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案 方案Peltier) The cooling operation of the element is configured by a cooling device that supplies dew condensation to the discharge device. Road to do, ·. In the invention, the discharge electrode is cooled by the Peltier element, and the discharge electrode is dew condensation from the moisture of the air towel, and the dew condensation phase is electrostatically atomized. As a result, a liquid for electrostatic atomization can be obtained by a storage mechanism such as a water tank, and therefore it is possible to reduce the size of the cosmetic device and the number of man-hours for supplying the liquid each time. [Effects of the Invention] According to the present invention, it is possible to provide a cosmetic device capable of suppressing the large size of the air blowing device and improving the distance of the generated ions. The above and other objects, features, and advantages of the present invention will become more apparent from the aspects of the invention. The embodiment of the present invention is illustrated in FIGS. 1 to 3, and the cosmetic wear of the present embodiment is formed into a truncated cone-shaped leg portion 2, and is fixed to the leg portion 2^. The roughly spherical remainder is 3. In the interior of the casing 3, various structural components of the beauty device 1 are formed. The valley is formed in the front central portion of the casing 3, and has an opening portion 3a' in which the upper and lower a# ρ-shaped openings are provided in the _3, and the circular ion-releasing nozzle 4 is opened from the opening and the protrusion: two = ^ The inside of the discharge nozzle 4 is provided with a release direction of ions released from the release nozzles. The δβ ρ read ion is in the right direction of the top of the casing 3 facing the ion release nozzle 4: the user is carrying the cosmetic device 丨=:=方'Installed as shown in Fig. 2 As shown in Fig. 3, a second ==:::201103635 piece 11 is fixed to a predetermined portion of the inner side of the De Zhao 2, and the support member 11 houses and supports the rear end side portion of the ion releasing unit 10. Bearing recesses 13a and 13b are respectively provided in the pair of right and left side walls l2a and 12b provided in the support member 11, and bearing projections which are formed by projecting from the left and right sides of the unit casing 10a of the ion releasing unit 1A are fitted. In the portions Ua and lib, in order to change the release direction of the ions, the ion releasing unit 1 is supported by tilting in the vertical direction. The tilting movement of the ion releasing unit 1A in the up and down direction is such that the positions of the bearing recesses 13a, 13b are set such that the horizontal line passing through the center of the spherical casing 3 becomes its tilting movement axis, and is inside the casing 3 The predetermined positions i4a and 14b (see Fig. 2) determine the range of the tilting motion by the restriction. Further, around the bearing recesses 13a to 13b of the support member u, the metal spring ua, the Mb' ion release unit 10 is increased in friction by the pushing of the metal springs 15a and 15b to the left and right sides. From the direction of the money ± down to the oblique movement can maintain the quarantine of Ren Bing. The ion releasing unit 10 is disposed so as to extend from the central portion of the casing 3 toward the opening portion 3a, and is configured to include the ion generating device 2 () and the air blowing device 30 so as to transmit the generated air to the outside and release it to the outside. Specifically, as shown in Figs. 2 to 5, the ion releasing unit 1 () has substantially squares = : ' The rear side of the unit housing core is disposed with a === ΪΪ air blowing device 3G. The air blowing device % turns the fan to rotate #3. A plurality of air intake ports 31 connected to the internal space of the machine 3 are formed in the center portion of the leg portion 2, and the air blowing device 30 passes through the air intake port 31. Naokawa produces a supply of wind. The outside air is taken in the lower side of the air supply, and the ion generator is installed downstream of the exhibition 30. The electronic device is installed on the axis of the air device 3G. The ion generating device is disposed separately from the sheep, and the discharge device 22 (discharge electrode) 23), and ion release nozzle 4. The sub-generation device 20 is composed of an electrostatic atomization device and includes a discharge chilling device 21. In the discharge device 22, a needle-shaped discharge electrode that protrudes toward the center portion of the discharge port 43 of the ion release 4 and a pair of the perforated % disposed on the front end side of the discharge electrode 23 and on the extension line of the discharge electrode are used. The electrode is composed of %. The cooling end 21' is arranged in parallel at the base end portion (the side of the air blowing device 3) of the electrode 23, and is arranged such that the cooling surface constituting the cooling device is placed on the discharge electrode 23. The element μ ^ : the heat release surface on the opposite side of the face surface has a heat releasing fin gaze 26 , and the portion of the air blow generated by the device 30 is supplied to the enemy heat fin 26 as a cooling air. Such an ion generating device 2G applies a high voltage to the discharge electrode 23 and the counter electrode 24 to generate a discharge around the discharge electrode 23, and the driving of the ear post element 25 cools the discharge electrode 23 to be generated on the ionizing surface. Condensation's nano-sized micro-particle water (charged micro-particle water) that is electrostatically atomized by the dew-handle. The microparticle water can penetrate into the surface of the stratum corneum of the user's skin. If it is infiltrated into the skin of the user, it brings tension and can be transmitted to the car for cosmetic or health effects. In the 23-shot ion generating apparatus 2, the use of the dew condensation electric-electrode electrode 23 to supply the water to the discharge electrode is used to supply the moisture _ ear element 12 201103635 25, and it is required that the water tank or the like be small and light, and unnecessary, > The child's become a beauty device in addition to the structure that will send the wind to the m ^. On the upstream side, the charged fine particle water 2 generated by the transfer of the ion generating device 20 to the delivery device 30 is prevented from being released. The surrounding release nozzles 4 _, 、, n f read the living device 2G to the wind path of the door of the farm. The air supply device 3 is immersed in the ion device 30, and the area of the main passage is gradually reduced, and the damper of the air supply ion releasing nozzle 4 is lifted by the air supply device. In addition, 'in the ion generating device 20 and the set 24_ sub-^^=1+, also the lining is installed and the ancient material is fetched f, the passage area is gradually reduced by 20 two, the flow rate 'others' due to the supply of air and by the ions The device is early! ^The charged micro-particle water is shot at the fresh part, so the charged micro-propagation is 7. The wind can be supplied with a large amount of fine particle water by using the air supply, and more of the charged fine particle water is further filtered from the ion releasing nozzle 4 as shown in FIG. 6, on the casing 32 surrounding the ion generating device 20. The above-described air blowing path 31b is formed in one touch π _u and + adjacent οβ body. Thus, it is sufficient for the ion release to be as small as 1G. Miscellaneous stuff has become capacity. Further, since the structure of the ion releasing unit 10 becomes simple, the obstacle in the wind direction is reduced, and the air blowing is smoothed, which is advantageous for the efficient ion release of 13 201103635. Further, the air supply passage 31b is provided with a plurality of (in other words, the partition wall X is placed 20 apart) on the upper side of the ion generating device 2b, and is configured to be transported from the air blowing passage 31b. The left and right sides are roughly line symmetrical when observed. As a result, the air blowing passages 31b are distributed symmetrically in the left-right direction, and the amount of air to be blown is the same as that of the left and right sides. Therefore, the disturbance of the air blowing in the air passage c on the downstream side where the ions are released becomes smaller. Therefore, since the blown air passes through the released ions from the upper, lower, left, and right sides, it is easy to propagate by the air blow, and the air blow is less likely to be released, so that efficient ion release is performed. Further, various power supply leads 35 and 36 for supplying power to the ion generator 2G and the like are extended from the periphery of the ion generator 2A, and a lead 35 is seen from the ion generator 2 as viewed from the front end side of the discharge electrode 23. The left side of the crucible extends upward, and the other lead 36 extends upward from the right side of the ion generating apparatus 20. Each of the leads 35, 36 is wired substantially symmetrically with respect to the center (discharge electrode 23) of the ion generator 2, and is advantageous for the symmetrical shape of the left and right sides of the air passage 31b. One portion of the air blow generated by the air blowing device 30 and passing through the air blowing passage 31a flows into the sub-flow path 33 (see FIG. 5) provided on the windward device 30 side of the outer casing 32 surrounding the ion generating device 20, and will An appropriate amount of air is supplied to the discharge electrode 23 of the ion generator 2A. A part of the air that has passed through the sub-flow path 3 is likely to cause the '° dew adhered to the tip end of the discharge electrode 23 to be not blown, and the electric charge water 201103835 generated by the discharge of the discharge electrode 23 is easily utilized. It is transmitted by the wind, which also contributes to the release of more charged corpuscle water. As shown in Fig. 2 and Fig. 3, on the front end portion of the unit casing 1A, the Yang Cai Shang Wei Wei 4 (four) mouth cover (_r) 4b is integrally provided. The nozzle cover 4b is formed such that the size of the egg of the opening portion 3a of the casing 3 regardless of the inclination movement angle of the ion releasing unit 1b, and by forming a predetermined spherical shape that coincides with the inner side surface of the casing 3, the nozzle| 4b always abuts on the peripheral portion of the opening portion % of the inner side surface of the casing 3. As described above, the ion releasing unit 1G__ (4) is inclined by the horizontal material of the center of the spherical casing 3, so that the nozzle cover can always be in close contact with the inner side surface of the casing 3 to be movable. The opening portion 3a provided on the casing 3 is always sealed on the mouth cover #. The ugly release nozzle 4 is extended by the inner side surface thereof (the ion discharge port 4 〇 is expanded toward the release direction thereof). The particle water is widely diffused. The control circuit (10) that operates the fn-capacity device 1 is attached to the back side of the bottom surface of the branch ion member U. The electric pin 41 (see Fig. 2) can be attached to the main body leg. A power supply adaptor (not shown) is inserted, and the power supply to the control circuit 4 is performed by the power supply line 42. Further, if the user presses the operation button 5 to turn on the operation, etc. 5 The sub-generation device 20 and the air supply device f are controlled to be separated from the L device 30. That is, if the state of the selection device is the same as the state of the (4), the discharge electrode is applied to the discharge electrode in the ion generating device 2〇. High-powered, and the driving voltage of the ear In addition, the drive circuit 45 that applies the wind noise is used to perform the lighting control of the display of the LED display and the control circuit 40. When the operation is turned on, the display unit 6 of the LE:5 is turned off, ##丄, and the LED is displayed during the operation, and the user's operation status is reported. The characteristic effect of the present embodiment is as follows: in the present embodiment m, the ionizing device 2 is formed so that the passage area of the wind passage 31c is made smaller toward the discharge port 4a' 2 =: generated by the air blowing device 30 The flow rate of the air supply is increased. The passage area of the passage 31c is reduced, and the air and the ions are concentrated and mixed to facilitate the propagation. Therefore, many ions in the generated ions can be propagated, that is, many ions in the generated ions. It is possible to spread the air by the air blower, and it is possible to suppress the increase in the size of the generated air distribution 30 from the release port, and to increase the flying distance of the generated ions. (2) In the present embodiment, the air supply path 31b Ion generating device 20 On the other hand, a plurality of the upper, lower, left, and right sides are spaced apart from each other, and are configured to have a substantially line symmetry when viewed from the air blowing direction in the air blowing passage 31b. Thereby, the air is blown through so that the released ions are The both sides of the ion generator are surrounded by the air blower, and the air blown by the air blower 30 is distributed symmetrically in the air passage 31b. The air volume and the wind speed of the air blow are the same, and the disturbance of the air blow is suppressed. The pieces are smaller, so this is enough and the efficiency of ion release. 201103635
置在兩侧的送風通路31b為對稱形狀、即、 -贫生裝置20而配 即、使分配到兩侧 的送風為同等的結構。 、31b、31c — 體 及單元殼體10a (4)在本實施方式中’送風通路 形成在離子發生裝置20的外輪廓殼體32 上,所以_實現美容裝置i的部件數降低。此外,送風 通路31a、31b、31〇部分的結構變得簡潔,所以能夠降低 送風上的障礙物。即,所生成的送風的流動變得更平順, 能夠有利於高效率的離子釋放。 a (5)在本實施方式中,以筒狀突設的離子釋放喷嘴4 是在具有釋放π 4a的關面上朝向離子轉放方向而擴 開,所以能夠將所生成的離子沿著擴開的該内侧 面而向;^ 範圍釋放。 (6)在本實施方式中,離子發生裝置2〇由靜電霧化 裝置構成,通過被供給了由冷卻裝置21 (液體供給機構) 生成的結露水的放電裝置22的放電電極23的放電,而生 成帶電微粒子水以作為離子。即,將能夠得到較高的美容 作用及健康作用的帶電微粒子水朝向使用者高效率地釋 (7)在本實施方式中,通過珀耳帖元件25而將放電 電極23冷卻,使放電電極23從空氣中的水分產生結露, 將該結露水用於靜電霧化。由此,能夠不使用水箱等的儲 17 201103635 存機構而得到用於靜電霧化的液體,所以能夠實現美容裝 置1的小型輕量化、以及省略每次供給液體的工時。 另外,本發明的實施方式也可以如以下這樣變更。 ♦在上述實施方式中,對於單元殼體l〇a和喷嘴蓋4b 的安裝形態並沒有特別言及’但如圖7所示’也可以在單 元殼體10a與喷嘴蓋4b之間夾著由〇形圈(ring)等構成的 密封部件50,將送風通路31c和釋放口 4a以密閉狀態連 接。在此情況下,將密封部件50嵌入至單元殼體10a的前 端面的環狀槽l〇b内,密封部件50隨著喷嘴蓋4b向單元 殼體10a的前端面的安裝而壓扁,構成密封構造。由此, 在單元殼體10a與喷嘴蓋4b之間不產生間隙等,所以送風 不會從這裏洩露,能夠高效率地進行離子釋放。另外,密 封部件50也可以使用0形圈以外的聚氨酯橡膠等其他彈 性體。 、 •在上述實施方式的送風通路31c中,如圖8所示,也 可以在離子發生裝置2〇與離子釋放口如之間配置活性炭 過濾器等的吸睛件5卜吸附部件51能夠替換,能夠從 =3上部的插入口 3b西己置到送風通路Mc内。構成吸附 附離子生成時生成的臭氧等的副產物,另— 離子通過滩炭顧f抑制了_子^面使生成的 能夠抑制有害的副產物等的釋放,能因此’ 靠性的提高。 —轴轉全性及可 •在上述實施方式的離子釋放單元 干’如圖9所示, 201103635 路3U、31b、31C之外設置從送風裝置30 朝向離子釋放π々進行直接送風 置 ==?4撕置3。生成的送風的= 、子釋放口 4a。因此,在離子 =送風而使風速增加,能夠利用送風傳播而= 離子發Z述置實= .. 輸鄢殼體32,但也可以一體地形成The air supply passages 31b provided on both sides have a symmetrical shape, i.e., the depletion device 20, and the air distributions distributed to both sides are equivalent. 31b, 31c - body and unit casing 10a (4) In the present embodiment, the "air supply passage" is formed in the outer casing 32 of the ion generator 20, so that the number of components of the beauty device i is reduced. Further, since the structure of the air supply passages 31a, 31b, and 31 is simple, the obstacle on the air blow can be reduced. That is, the flow of the generated blow air becomes smoother, and it is possible to facilitate efficient ion release. a (5) In the present embodiment, the ion releasing nozzle 4 protruding in a cylindrical shape is expanded toward the ion-transferring direction on the closing surface having the release π 4a, so that the generated ions can be expanded along The inner side of the side is released; (6) In the present embodiment, the ion generator 2 is configured by an electrostatic atomization device, and is discharged by the discharge electrode 23 of the discharge device 22 to which the dew condensation water generated by the cooling device 21 (liquid supply means) is supplied. Charged microparticle water is produced as an ion. In other words, the charged fine particle water capable of obtaining a high cosmetic action and a health effect is efficiently released to the user. (7) In the present embodiment, the discharge electrode 23 is cooled by the Peltier element 25, and the discharge electrode 23 is caused to be discharged. Condensation is generated from moisture in the air, and the dew condensation water is used for electrostatic atomization. Thereby, the liquid for electrostatic atomization can be obtained without using a storage tank such as a water tank. Therefore, it is possible to reduce the size and weight of the beauty device 1, and to omit the man-hour for supplying the liquid each time. Further, the embodiment of the present invention may be changed as follows. ♦ In the above embodiment, the mounting form of the unit casing 10a and the nozzle cover 4b is not particularly described as 'but as shown in FIG. 7', and between the unit casing 10a and the nozzle cover 4b may be sandwiched between the unit casing 10a and the nozzle cover 4b. The sealing member 50 formed of a ring or the like connects the air supply passage 31c and the discharge port 4a in a sealed state. In this case, the sealing member 50 is fitted into the annular groove 10b of the front end surface of the unit casing 10a, and the sealing member 50 is crushed as the nozzle cover 4b is attached to the front end surface of the unit casing 10a. Sealed construction. Thereby, no gap or the like is generated between the unit casing 10a and the nozzle cover 4b, so that the blown air does not leak therefrom, and ion discharge can be efficiently performed. Further, as the sealing member 50, other elastic bodies such as urethane rubber other than the O-ring may be used. In the air supply passage 31c of the above-described embodiment, as shown in Fig. 8, an eye suction member 5 such as an activated carbon filter or the like may be disposed between the ion generator 2 and the ion discharge port, and the adsorption member 51 may be replaced. It can be placed in the air supply passage Mc from the insertion port 3b at the upper portion of the =3. The by-products such as ozone generated during the adsorption of the ions are formed, and the other ions can suppress the release of harmful by-products and the like by the formation of the smudges, thereby improving the reliability. - Shaft rotation integrity and can be made in the ion release unit of the above-described embodiment as shown in Fig. 9, in addition to the 201103635 road 3U, 31b, 31C, the direct air supply is set from the air blowing device 30 toward the ion release π = ==? 4 tear 3. The generated air supply = and sub-release port 4a. Therefore, in the case of ion = air supply, the wind speed is increased, and it is possible to use the air supply to propagate.
=離子發生裝置2〇的周圍的送風裝置30 =1 件、或離子釋放單元的單元殼體恤等上。體P 稱地开方式中’將送風通路训左右大略成線對 右都對稱地形成。 卜友 户,2上述實施方式+ ’錢風裝置3G巾使用軸流風 :。可以使用西/各克風扇(Sir〇cco Fan)等其他送風裝 歩番ίΐ述實施方式中’通過使_耳帖耕25的冷卻 2 21來對放電電極23供給結露水,但也可以使用水箱 專來進灯液體供給1外也可以使用水以外的液體。 在上述實施方式巾,可傾斜物地支雜子釋放單元 -例如也可以變更為可滑動等其他的能夠活動的結構。 上述實施方式的腳部2未特別言及,但如圖2所示, J以在腳部2的,部上設置橡膠等的雜部件構成的防 '月° 52°由此’美谷裝置1不容易移動,能夠安全地使用。 201103635 雖然本發明已以較佳實施例揭露如上,然览並非、 限定本發明,任何熟習此技藝者’在残離本發明之= 和範圍内,當可作些許之更動與潤飾,因此 、神 範圍當視後附之申請專利範圍所界定者為準。# 呆護 【圖式簡單說明】 圖1是本實施方式的美容裝置的立體圖。 圖2是美容裝置的垂直剖視圖。 圖3是美容裝置的水平剖視圖。 圖4是離子釋放單元的垂直剖視圖。 圖5是離子釋放單元的水平剖視圖。 圖6是離子釋放單元的引線的佈線圖。 形態絲子釋放單元射嘴蓋之咖密封構造的 吸附部件的形態的示意圖 放口配置送風通路的形態 圖8是在送風通路中配置 的 〜圖9是從送風裝置朝向釋 示意圖。 【主要元件符號說明】 1 :美容裝置 2 :腳部 3 :機殼 3a :開口部 4 :喷嘴 4a .離子釋放口 4b :噴嘴蓋 201103635 5 :操作按紐 6 : LED顯示部 7 :手柄 10 :離子釋放單元 10a :單元殼體 10b :環狀槽 11 :支撐部件 11a,lib :軸承凸部 12a,12b :側壁 13a, 13b :軸承凹部 14a, 14b :規定部位 15a,15b :金屬彈簧 20 :離子發生裝置 21 :冷卻裝置 22 :放電裝置 23 :放電電極 24 :對置電極 24a :貫通孔 25 :珀耳帖元件 26 :放熱翅片 30 :送風裝置 31 :空氣取入口 31a,31b,31c :送風通路 32 :外輪廓殼體 21 201103635 33 :副流路 35、36 :引線 40 :控制電路 41 :插銷 42、43、44 ··引線 45 :顯示電路 50 :密封部件 51 :吸附部件 52 :防滑部 22= the air blowing device 30 around the ion generating device 2 =1, or the unit housing shirt of the ion releasing unit. The body P is called the ground opening mode, and the air supply path is formed symmetrically about the left and right sides. Bu Youhu, 2 above embodiment + ‘wind wind device 3G towel using axial flow wind: It is possible to use the other air supply device such as a squirrel fan (Sir〇cco Fan) to supply dew condensation water to the discharge electrode 23 by cooling the 222 of the _ ear plough 25, but a water tank can also be used. A liquid other than water can also be used in addition to the feed liquid supply. In the above-described embodiment, the tiltable object-doped release unit can be changed to another movable structure such as a slidable body. The leg portion 2 of the above-described embodiment is not particularly described. However, as shown in FIG. 2, J is provided with a miscellaneous member such as rubber provided on the portion of the leg portion 2, and thus the 'Mt. Easy to move and safe to use. 201103635 Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention, and anyone skilled in the art can make some modifications and refinements within the scope and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached. #呆护 [A brief description of the drawings] Fig. 1 is a perspective view of a beauty device according to the present embodiment. 2 is a vertical cross-sectional view of the cosmetic device. Figure 3 is a horizontal cross-sectional view of the cosmetic device. 4 is a vertical cross-sectional view of the ion releasing unit. Figure 5 is a horizontal cross-sectional view of the ion releasing unit. Fig. 6 is a wiring diagram of a lead of an ion releasing unit. Fig. 8 is a view showing the arrangement of the air supply passages in the air supply passage of the nozzle release unit nozzle cover. Fig. 8 is a view showing the arrangement of the air supply passages. [Description of main component symbols] 1 : Beauty device 2: Foot 3: Case 3a: Opening 4: Nozzle 4a. Ion release port 4b: Nozzle cover 201103635 5: Operation button 6: LED display portion 7: Handle 10: Ion releasing unit 10a: unit housing 10b: annular groove 11: supporting member 11a, lib: bearing convex portion 12a, 12b: side wall 13a, 13b: bearing recess 14a, 14b: prescribed portion 15a, 15b: metal spring 20: ion Generator 21: Cooling device 22: Discharge device 23: Discharge electrode 24: Counter electrode 24a: Through hole 25: Peltier element 26: Heat releasing fin 30: Air blowing device 31: Air intake port 31a, 31b, 31c: Air supply Passage 32: Outer contour housing 21 201103635 33: Sub-flow path 35, 36: Lead 40: Control circuit 41: Pins 42, 43, 44 · Lead 45: Display circuit 50: Sealing member 51: Adsorption member 52: Non-slip portion twenty two