201016321 九、發明說明: 【發明所屬之技術領域】 ' 本發明係有關於一種霧化模組以及霧化裝置,尤指一 i種應用於工作流體’且透過動力源組件產生驅動電力之霧 化模組以及霧化裝置。 【先前技術】 按’自西元1954年錯鈦酸錯(Lead Zirconate201016321 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to an atomization module and an atomization device, and more particularly to an atomization applied to a working fluid and generating a driving power through a power source component. Module and atomizing device. [Prior Art] Press 'Lead Zirconate from 1954
Ti tanate ’ PZT)固溶液(s〇l id-solut ion)材料被發現具有 β的優良壓電特性(piezoelectricpr〇perties)後,鍅鈦酸 鉛即被廣泛的應用在各種壓電裝置,而壓電材料常見之應 用,如超音波霧化器,其霧化換能器型式依不同的應用而 有不同的設計,-般皆以其換能器之共振頻率、消耗電功 率、霧化量和霧化粒子作為主要區分。目前市面上之超音 波霧化器可參考專利案號為W096/22013及 US2008/0023570 等專利案。 ❹ …、曰刖装攻在父通工具(如汽車、纜車或遊艇等) 内使用以進行散熱之霧化器的電力大多使用自有電池或 2工:本身所提供的電力(如車輛上之電瓶)予以進行 二此,在自有電池沒電、交通工具未啟動(如車辅 Γ火)或父通工具本身的電力耗盡(如電瓶沒電)等狀、兄 蚪,則無法使該霧化器產生水汽以 况 度’而當太陽高照時,合-乂、工具内的溫 升,此時正是m :又通工具内的溫度節節高 到上述無法使用該霧化器的狀況偏若遇 右有人在交通工具内, 110958 5 201016321 開大方可解除因高溫所造成的不適感,此舉無 、使得該霧化器在此時無法被湘,若對於使用 1二木/白、乂通工具而言’更會造成車輛的油耗增加,甚 ’對於纜車内的民眾而言,因為無空調設備,更容易產 生頭暈目眩、喔心等症狀,反之,若無人在交通工具内⑽ 如V放在平面停車㈣車輛或高掛在Μ㈣車),則容 通卫具内的高溫而造成物品的損壞、操作功能的 故障或食物的變質。 &外’目前供農夫使用以進行藥劑噴灑之霧化器大多 需要切率的驅動源,因而使得該種霧化器具有較:的體 積及車乂重的重篁’而該種霧化器需由人工 —作業,亦即在數陽高照下,農夫需頂著大太陽背負 ,霧化器進行藥劑的喷㈣業,因此,在過程中容易使得 辰夫中暑,此外,由於農夫都是在*-段期間内的某一天或 數天進行藥劑的喷灑作業,故而在剛灑完藥劑的當天或幾 天内,藥劑的殘留量非常大,此舉無疑地不僅會對環境的 保護造成影響,更會因藥劑的過量使用而影響到食用者。 因此,如何提供一種在適當時機被有效的使用、且可 適時定量地進行工作流體的噴灑之霧化器,實 欲待解之問題。 【發明内容】 鑒於以上所述習知技術之問題,本發明之主要係在提 供-種霧化模組以及霧化裝置’以在適當時機被有效的使 用’且可適時定量地進行工作流體的噴灑。 110958 6 201016321 本發月所揭路之霧化模組,係應用於工作流體,該霧 化模、,且匕括.動力源組件,係用以依據光照強度產生驅動 電力;振盪件,係與該動力源組件電性連接,用以接收該 驅動電力而產生振M動力;以及霧化件,係與該振盈件連 接且與該工作流體接觸,並具有複數個微孔洞,用以接 收該振盡動力而與該工作流體共振,並藉由該等微孔洞霧 化該工作流體。 本發明所揭露之霧化裝置,係應用於工作流體,該霧 ❹化裝置包括:容納組件’係具有腔室本體以及蓋體,該腔 至本體用以容置該工作流體,且具有第一開口以及第二開 口,該蓋體用以蓋合該腔室本體,且於蓋合時阻斷該第一 開口,並於開啟時供置入該工作流體於該腔室本體;流體 傳導件,其兩端係分別連接於該腔室本體之第一開口以及 "第二開口;以及霧化模組,係設置於該流體傳導件上,且 具有複數個與該流體傳導件内的空間連通之微孔洞,用以 ❿依據光照強度產生驅動電力,且依據該驅動電力產生振盪 動力;其中,該蓋體開啟並置入該工作流體於該腔室本體 w ’該工作流體係經由該第二開口流入該流體傳導件中以 保持壓力平衡狀態,該蓋體蓋合該腔室本體時,由於該第 一開口被阻斷,進而使得該流體傳導件内具有該工作流體 的空間形成氣密狀態’而當該霧化模組產生振盪動力時, 該霧化模組與該工作流體共振,並藉由該等微孔洞霧化該 工作流體。 本發明所揭露之霧化裝置,係應用於工作流體,該霧 7 110958 201016321 化裝置包括:容納組件’係具有腔室本體以及蓋體,該腔 室本體用以容置該工作流體’且具有開口,該蓋體用以蓋 合該腔室本體’並於開啟時供置入該工作流體於該腔室本 體,以及霧化核組’係設置於該容納組件之開口處,且具 有複數個與該開口連通之微孔洞,用以依據光照強度產生 驅動電力,且依據該驅動電力產生振盪動力,以於該腔室 本體内容置有該工作流體時,與該工作流體共振,並藉由 該等微孔洞霧化該工作流體。 ❹ “上所述,本發明之霧化模組係藉由動力源組件依據 光照強度產生驅動電力予振盪件,進而產生振盪動力予霧 化件,使該霧化件與該工作流體共振,並藉由該等微孔洞 霧化該工作流體,而本發明之霧化裝置則是藉由具有容置 S亥工作流體之容納組件與該霧化模組之配合,並選擇性的 增加流體傳導件,以於該霧化模組產生振盪動力時,產生 霧化的效果,相較於習知技術,本發明係藉由動力源組件 ❹來產生驅動電力,據此可使本發明之霧化模組以及霧化裝 置在適當時機被有效的使用,且可適時定量地進行工作流 體的喷灑,而不會如習知技術中用於交通工作使用時,產 生無法使用霧化器的狀況,造成油耗增加、物品的損壞、 功能的故障或食物的變質的情事發生,更不會如習知技術 中用於藥劑的噴灑作業時,造成農夫中暑或對環境保護造 成影響以及影響到食用者的情事發生,俾達上述之功效。 【貫施方式】 以下係藉由特定的具體實施例說明本發明之實施方 110958 8 201016321 式,熟習此技藝之人士可由本說明書 瞭解本發明之其他優點與功效。本發明亦可藉== 實施例加以施行或應用,本說明書中的各 可基於不同觀點與應用,在不悻離本發明神 種修飾與變更。 τ卜進订各 如弟1至8圖所示’係為本發明之霧化模組及霧化裝 —=目關圖式。其中’須注意的是,該等圖式均為簡化之 W圖’僅以示意方式說明本發明之基本架構。因此,在 ®該等圖式中僅顯示與本發明有關之元件,且所顯示之元件 =非以—實際實施時之數目、形狀、及尺寸比例等加以緣 衣’其貫際實施時之數目、形狀及尺寸比例為一種選擇性 之設計:且其元件佈局形態可能更為複雜,於此合先敛明。 一如第1圖所示’係為本發明之霧化模組之實施例方塊 示意圖,圖中’本發明之霧化模組丨係應用於工作流體(未 予圖不),實際實施時,該工作流體可例如為水、藥劑以 參及精油等該霧化模組i包括:動力源組件1G、振盈件 11以及霧化# 12。以下即針對本發明之霧化模組1所包 含的上揭各物件進行實施例的詳細說明: 該動力源組件10係用以依據光照強度產生驅動電 力於本實施例中,該動力源組件1 〇復包括:太陽能板 100、控制1C101、太陽能電池102、換能器(lnverter)103 以及光度開關1〇4 ’其中,該太陽能板1〇〇係用以接受太 陽日照而產生直流驅動電力,該控制IC101係與該太陽能 板100電性連接,用以接收該直流驅動電力並予以傳送, 9 110958 201016321 該太陽能電池102係與該控制IC101電性連接,用以接收 並儲存該直流驅動電力,該換能器1 〇 3係與該太陽能電池 '102電性連接,用以接收該直流驅動電力而產生交流驅動 電力’該光度開關104係與該換能器1〇3電性連接,用以 依據太陽日照的強度提供該交流驅動電力予該振蓋件 11 ’貫際實施時,可如圖中所示,將該控制I c 1 〇 1、該太 陽能電池102、該換能器1 〇3以及該光度開關1 〇4設置於 一塊電路板105上。 ❹ 此外,於其他實施例中(未予圖示),該動力源組件 1 〇復可包括·電池以及切換開關,其中,該電池係與該 換能器103電性連接,並儲存有直流驅動電力,實際實施 時,該電池可例如為一次性電池、充電電池以及燃料電池 等,該切換開關係與該太陽能電池丨〇2以及該電池電性連 接,用以供使用者透過切換以進行該太陽能電池i 〇2以及 該電池的選擇,而此實施例中之電池的設置係用以作用備 ❹用電力的來源,當然在另外的實施例中(未予圖示),該動 力源組件10復可增設電源開關,以進行電源的開啟或關 閉(Οη/Off),因此,在某些狀況下,例如當使用者將電源 =閉後,因為太陽對於太陽能板1〇〇的照射,而使得太陽 池102内繼續儲存電力,或是先前使用時,未將太陽 月b電池102内所儲存之電力耗盡即將電源關閉,故而當使 用者再次開啟電源時,即可直接運用太陽能電池丨〇2内所 儲存之電力驅動本案之霧化模組丨’而無需在太陽高照時 才可使用’因此’前述所增設之電池並非為必要者。 110958 10 201016321 該振盪件11係與該動力源組件1〇電性連接,用以接 收該驅動電力而產生振盈動力。於本實施例中,該振篮件 ’ 11係為振㈣’其材料為壓電材料,實際實施時,該振 盪件11可如第2(A)及2(B)圖所示,位於該霧化件12的 中央。當然,於其他實施例中,該振盪件n之形狀、數 量及設置位置亦可依需求所予以設計,並非以本實施例所 限,如第3(A)及3(B)圖所示,該振蘯件u可為振蘯塊或 振盪片,且該振盪件U之位置係可位於該霧化件12的一 ©側,而當該振盪件Π為兩塊振盪塊或振盪片時,其位置 係可位於該霧化件12的兩侧。 八 該霧化件12與該振盪件U連接,如設置於該振盪件 11上,且與該工作流體接觸,並具有複數個微孔洞120, 用以接收該振盪動力而與該工作流體共振,並藉由該等微 孔/同12 0霧化該工作流體。於本實施例中談霧化件12係 為多孔膜片。如第4(A)及4(B)圖所示,係為本發明之霧 藝化模組1之霧化件12上的微孔洞120結構的兩種實施例 示意圖,其中,若應用第4(A)圖的微孔洞120結構,則 可於霧化時,令該工作流體產生較集中且直線射出的喷霧 效果,若應用第4(B)圖的微孔洞120結構,由於其中的 微孔洞120係以偏心方式予以設置於該霧化件12上,因 此可於霧化時,令該工作流體產生較分散的喷霧效果。當 然’此處所例示的兩種微孔洞120結構僅為示意用,並非 用以限制本發明可實施之微孔洞120結構,實際實施時亦 可依需求進行微孔洞120結構的設計,例如以上述兩種微 π 110958 201016321 孔洞120結構相互搭配組合等。此外,為了使由誃 、洞⑽霧化產生較佳之微液滴,因&,該霧化件^之微 、孔 >同120之孔徑最好在8〇微米以下。又,該等微孔洞⑽ ::狀可為對稱或非對稱’且該等微孔洞之材料係為局部 填充低表面能之材料。 心再=本發明之霧化额1之霧化量係可根據日照強 仃.匕例如日照強度越強,該動力源組件1 〇提供 =交流驅動電力越高,進而使該㈣件n的振逢動力也 、強’因此’該霧化件12對於該工作流體的霧化量越高, 十之下對於父通工具而言,散熱的效果越佳,反之, 在曰照強度微弱或甚至無曰照時,霧化量則越低甚或停止 進仃霧化,藉此,則可減少交通工具内的水氣,不致使交 通工具内的空氣過於潮溼。 再如第5圖所示,係為本發明之霧化裝置之實施例示 ^圖,圖中,本發明之霧化裝置係應用於工作流體(未予 瘳圖不)’貫際實施時’該工作流體可例如為水、藥劑以及 精油等’該霧化裝置包括:容納組件2、流體傳導件3以 及霧化模組1。以下即針對本發明之霧化裝置所包含的上 揭各物件進行實施例的詳細說明: 該容納組件2係具有腔室本體20以及蓋體21,該腔 室士體20用以容置該工作流體,且具有第-開口 200以 及f二開口 20卜該蓋體21用以蓋合該腔室本體20,且 於·^ S B才阻斷該第一開口 2〇〇,並於開啟時供置入該工作 流體於該腔室本體2〇。於本實施例中,該第-開口 200 110958 12 201016321 係位於該腔室本體20上端且該蓋體21蓋合該腔室本體 20處’該第二開口 201係位於該腔室本體2〇下端處。 該流體傳導件3之兩端係分別連接於該腔室本體2〇 之第開口 2 0 0以及弟二開口 2 01。於本實施例中,該流 體傳導件3係為材質為可塑性之導管,例如塑膠軟管。 該霧化模組1係設置於該流體傳導件3上,且具有複 數個與該流體傳導件3内的空間連通之微孔洞,用以依據 光照強度產生驅動電力,且依據該驅動電力產生振盪動 ©力。於本實施例中,該霧化模組!復包括:動力源組件、 振盪件以及霧化件,其中,該動力源組件係用以依據光照 強度產生驅動電力,該振盪件係與該動力源組件電性連 接,用以接收該驅動電力而產生振盪動力,該霧化件係與 該振盪件連接,如設置於該振盪件上,且具有複數個與該 -流體傳導件3内的空間連通之微孔..洞,用以接收該振盈動 力而與該工作流體共振,並藉由該等微孔洞霧化該工作流 ❿體,其中,該動力源組件又包括:太陽能板、控制ic、 太陽能電池、換能器以及光度開關,其中,該太陽能板係 用以接受太陽日照而產生直流驅動電力,該控制ic係與 該太陽能板電性連接,用以接收該直流驅動電力並予以傳 达,該太陽能電池係與該控制Ic電性連接,用以接收並 儲存該直流驅動電力,該換能器係與該太陽能電池電性連 接,用以接收該直流驅動電力而產生交流驅動電力,該光 f開關係與該換能器電性連接,用以依據太陽日照的強戶 提供該交流驅動電力予該振盪件。此外,於其他實施二 Π0958 13 201016321 =士該動力源組件復可包括:電池以及切㈣關,其中, • ~池係與該㈣ϋ電㈣接,域存有直麵動電力, 貫際實施時,該電池可例如為—次性電池、充電電池以及 …'枓電池等,該切換開關係與該太陽能電池以及該電池電 性連接’用以供使用者透過切換以進行該太陽能電池以及 該電池的選擇,該振蘯件係為振蘯環、振盈塊以及㈣片 之其中之-者,其材料為I電材料,該振蓋件係位於該霧 化件的中央或—侧或_,且該霧化件係為多孔膜片,該 〇等微孔洞之形狀可為對稱或非對稱,該等微孔洞之材料係 為局部填充低表面能之材料。需說明的是,由於本發明之 霧化裝置的此實施例中的霧化模組J與前述之霧化模組i 的作用相似’因此,該霧化模虹i所包含的詳細元件未予 圖示,但實際實施時,可參考前述之霧化模組〗之圖式(第 卜 2(A) ' 2⑻、3(A)、3(B),、4(A)及 4(B)圖)及相關說 明。 ❹ 承上述,當使用者開啟該蓋體21並置入該工作流體 於該腔室本體20時,該工作流體係經由該第二開口 2〇1 流入該流體傳導件3中以保持壓力平衡狀態,當該蓋體 21蓋合該腔室本體20時,由於該第一開口 2〇〇被阻斷, 進而使得該流體傳導件3内具有該工作流體的空間形成 氣密狀態,而當該霧化模組丨產生振盪動力時,該霧化模 組1與該工作流體共振’並藉由該等微孔洞霧化該工作流 體,需附加說明的是,如第6圖所示,在霧化的過程中, 由於該流體傳導件3内具有該工作流體4的空間形成氣密 110958 14 201016321 狀態,故而會產生一種類似於幫浦的作用,亦即备 之工作流體4被霧化成微液滴而發散出去時,因田邛刀 •該流體傳導件3内的工作流體4減少了,因: 流體傳導件3内呈現負壓狀態’而為了使壓力能; 容置於該容納組件2之腔室本體20内的工作流體4 g合 由該第二開口 201被吸入至該流體傳導件3内,進 P二 霧化過程中,容置於該容納組件2之腔室本體 作流體4會不斷地供入該流體傳導件3 _ g 且王各置於續 ⑩谷納組件2之腔室本體20内的工作流體4被用完為止 藉此,即無需在短時間内補充該工作流體4於該ς蜗杜 2之腔室本體20内。 19 再者’由於該霧化模組!係設置於該流體傳 上,且該流體傳導件3並非固設於該容納組件2上(僅鱼 該容納組件2之第一開口. 2〇〇與第二開口 2〇1連通),= 即,該霧化模組1可隨意進行位置調整,因此 ^ 極為方便。 你使用上 再如第7圖所示,係為本發明之霧化裝置之另—實施 例示意圖,圖中,本發明之霧化裝置係應用於工作流體 予圖不),實際實施時,該工作流體可例如為水、藥劑 及精油等,該霧化褒置包括:容納組# 2以及霧化模组卜 以下即針對本發明之霧化裝置所包含的上揭件。 實施例的詳細說明: 進订 —該容納組件2係具有腔室本體20以及蓋體21,該 室本體20用以容置該工作流體,且具有開口 2()2,該蓋 ]10958 15 201016321 體21用以蓋合該腔室本體20’並於開啟時供置入該工作 流體於該腔室本體20。於本實施例中,該開口 202係位 : 於該腔室本體20下端處。 •該霧化模組1係設置於該容納組件2之開口 202處, 且具有複數個與該開口 202連通之微孔洞,用以依據光照 強度產生驅動電力,且依據該驅動電力產生振盪動力,以 於該腔室本體20内容置有該工作流體時,與該工作流體 共振’並藉由該等微孔洞霧化該工作流體(如第8圖所 ❿示)。於本實施例中’該霧化模組1復包括:動力源組件、 振I件以及霧化件,其中,該動力源組件係用以依據光照 強度產生驅動電力’該振盪件係與該動力源組件電性連 接,用以接收該驅動電力而產生振盪動力,該霧化件與該 振盪件連接’如設置於該振盡件上’且具有複數個與該開 口 202連通之微孔洞’用以接收該振盡動力而與該工作流 體共振,並藉由該等微孔洞霧化該工作流體,其中,該動 ⑩力源組件又包括:太陽能板、控制IC、太陽能電池、換 能器以及光度開關,其中,該太陽能板係用以接受太陽日 照而產生直流驅動電力,該控制IC係與該太陽能板電性 連接,用以接收該直流驅動電力並予以傳送,該太陽能電 池係與該控制1C電性連接,用以接收並儲存該直流驅動 包力’該換能益係與該太陽能電池電性連接,用以接枚該 直流驅動電力而產生交流驅動電力,該光度開關係與該換 能器電性連接,用以依據太陽日照的強度提供該交流驅動 電力予該振盪件。此外,於其他實施例中,該動力源組件 110958 16 201016321 j可包括.電池以及切換開關,其中,該電池係與該換能 器電陡連接,並儲存有直流驅動電力,實際實施時,該電 。池可例如為一次性電池、充電電池以及燃料電池等,該切 •換開關係與該太陽能電池以及該電池電性連接,用以供使 用者透過切換以進行該太陽能電池以及該電池的選擇,該 振盪件係為振盪環、振盪塊以及振盪片之其中之一者,其 材料為壓電材料’該振盪件係位於該霧化件的中央或一側 或兩側,且該霧化件係為多孔膜片,該等微孔洞之形狀可 ©為對稱或非對稱,該等微孔洞之材料係為局部填充低表面 能之材料。需說明的是,由於本發明之霧化裝置的此實施 例中的霧化模組1與前述之霧化模組丨的作用相似,因 此,該霧化模組1所包含的詳細元件未予圖示,但實際實 .施時,可參考前述之霧化模組i之圖式(第卜2(〇、2〇)、 ’ 3(A)、3(B)、4(A)及4(B)圖)及相關說明。 此外,由於該開口 202係位於該腔室本體2〇下端處, ❷且該霧化模組1係設置於該容納組件2之開口 2〇2處,因 此,在霧化過程中,幾乎可完全將容置於該容納組件2 之腔室本體20内的工作流體喷麗出去,而無需在短時間 内補充該工作流體於該容納組件2之腔室本體2〇内。再 者’由於本實施例中之霧化模組丨係設置於該容納組件2 之開口 202處,與該腔室本體20下端的壁面藕合,因此, 若置於室外或鳜陽下’可減少日曬雨淋對於該霧化模組i 的影響。 當然’在上述的霧化模組及霧化裝置使用的過程中, 110958 17 201016321 亦可配合風爲或其他裝置的使用,以增加霧化產生之微液 滴的噴灑範圍。且本發明之霧化模組及霧化裝置中的霧化 模組亦可同時使用複數個驅動頻率不同之振盪件,並以複 頻電力予以驅動’讓複數個振盪件可同時進行不同頻率的 微液滴喷灑作業,而產生更多樣態的霧化效果。、、 綜上所述,本發明之霧化模組係藉由動力源組件依據 光照強度產生驅動電力予振盪件,進而產生振盪動力予霧 化件,使該霧化件與該工作流體共振,並藉由該等微孔洞 ©霧化該工作流體,而本發明之霧化裝置則是藉由具有容置 該工作流體之容納組件與該霧化模組之配合,並選擇性的 增加流體傳導件,以於該霧化模組產生振盪動力時,產生 霧化的效果。 相較於習知技術,本發明係藉由動力源組件來產生驅 動電力,據此可使本發明之霧化模組以及霧化裝置在適當 f機被有效的使用,例如將交通工具停放在大太陽底下或 肇疋在大太陽底下進行交通工具的運作時,正為需要為交通 ^八内進行散熱之適當時機,而由於本發明之動力源組件 系依據光照強度來產生驅動電力,因此,無需額外的 即可自行運作。 1此外,當本發明之霧化模組以及霧化裝置應用於藥劑 曲麗作業日守’可將本發明之霧化模組以及霧化裝置置放於 辰…中的某個或某幾個位置,以於每天太陽高照時,自動 進仃藥劑之喷灑’如此即可適時定量地進行工作流體的喷 18 110958 201016321 可德&句話π應用本發明之霧化模組以及霧化裝置不僅 ,/ 1知技術中用於交通工具使用時,產生無法使用 務化态的狀況,造成油耗择 . ㈢π、物品的損壞、功能的故障 物的變質的情事發生’更可避免如習知技術中用於藥 業時’造成農夫中暑或對環境保護造成影響以 =到食用者的情事發生’藉此,即可達到在適當時機 放的使用,且可適時定量地進行工作流體的喷麗之目 的0 ❹述之貝施例僅為例不性說明本發明之原理及其功 效’而非驗關本發明。任何熟習此技藝之人士均可在 =違背本發明之精神及料下,對上述實施例進行修飾與 .因此,本發明之權利保護範圍,應如後述之申請專 利範圍所列。 【圖式簡單說明】 第1圖,係為本發明之霧化模組之實施例方塊示意 圖; 〇 第2(A)及2(B)圖’係為本發明之霧化模組之振盡件 與霧化件的兩種實施例示意圖; 第3(A)及3(B)圖’係為本發明之霧化模組之振盈件 與霧化件的另外兩種實施例示意圖; 第4(A)及4(B)圖,係為本發明 < 霧化模組之霧化件 上的微孔洞結構的兩種實施例示意圖; 第5圖’係為本發明之霧化裝置之實施例示意圖; 第6圖,係為本發明之霧化裳置之實施例作動示意 110958 19 201016321 圖; 第7圖,係為本發明之霧化裝置之另一實施例示意 圖;以及 第8圖,係為本發明之霧化裝置之另一實施例作動示 意圖。 【主要元件符號說明】 1 霧化模組 10 動力源組件 100 太陽能板 101 控制1C 102 太陽能電池 103 換能器 104 光度開關 105 電路板 11 振盪件 12 霧化件 120 微孔洞 2 容納組件 20 腔室本體 200 第一開口 201 第二開口 202 開口 21 蓋體 3 流體傳導件 4 工作流體 20 110958Ti tanate ' PZT) solid solution (s〇l id-solut ion) material was found to have excellent piezoelectric characteristics (piezoelectricpr〇perties), lead bismuth titanate is widely used in various piezoelectric devices, and pressure Common applications of electrical materials, such as ultrasonic atomizers, have different designs of atomized transducers depending on the application, such as the resonant frequency, power consumption, atomization and fog of the transducer. Particles are the main distinction. At present, the ultrasonic atomizers on the market can refer to patent cases such as W096/22013 and US2008/0023570. ❹ ..., 曰刖 攻 在 在 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父 父The battery is to be carried out. If the battery is dead, the vehicle is not started (such as the car bonfire), or the power of the parent tool itself is exhausted (such as the battery is dead), the brother and sister cannot The atomizer generates water vapor in the state of 'when the sun is high, the temperature rises in the tool, and the temperature inside the tool. At this time, it is m: the temperature in the tool is high enough that the atomizer cannot be used. If the situation is partial, the right person is in the vehicle. 110958 5 201016321 The generous can relieve the discomfort caused by the high temperature. This action does not make the atomizer unable to be used at this time, if it is used for 1 wood/white In terms of tools, it will increase the fuel consumption of vehicles. Even for the people in the cable car, because there is no air conditioning equipment, it is more prone to dizziness, nausea and other symptoms. Otherwise, if no one is in the vehicle (10) Such as V placed in a flat parking (four) vehicle or If it is hung in the Μ(4) car, it will cause damage to the article, malfunction of the operation function or deterioration of the food due to the high temperature inside the Guard. & outside 'current atomizers used by farmers for spraying chemicals mostly require a cutting rate drive source, thus making the atomizer have a larger volume and a heavy weight of the rut' and the atomizer It is necessary to do the work-work, that is, under the high sun, the farmer needs to carry the big sun and the atomizer to spray the medicine (4). Therefore, it is easy to make the heat stroke in the process. In addition, because the farmers are *-The spraying of the drug is carried out on a certain day or several days in the period. Therefore, the amount of the drug remains very large on the day or days after the drug is completely dispensed, which will undoubtedly not only affect the environmental protection. It will also affect the consumers due to the excessive use of the drug. Therefore, it is an object of the present invention to provide an atomizer which is effectively used at an appropriate timing and which can perform the spraying of the working fluid quantitatively and quantitatively. SUMMARY OF THE INVENTION In view of the above-mentioned problems of the prior art, the present invention mainly provides an atomizing module and an atomizing device 'to be effectively used at an appropriate timing' and can perform working fluids in a timely and quantitative manner. spray. 110958 6 201016321 The atomization module of the road disclosed in this month is applied to the working fluid, the atomization module, and the power source component is used to generate driving power according to the light intensity; the oscillating member is The power source component is electrically connected to receive the driving power to generate vibration M power; and an atomizing component is connected to the vibration component and is in contact with the working fluid, and has a plurality of micro holes for receiving The vibrating power resonates with the working fluid and atomizes the working fluid by the micropores. The atomization device disclosed in the present invention is applied to a working fluid, and the smog device includes: a accommodating component s having a chamber body and a cover body for receiving the working fluid, and having the first An opening and a second opening, the cover is configured to cover the chamber body, and block the first opening when closing, and to insert the working fluid into the chamber body when opening; the fluid conducting member, The two ends are respectively connected to the first opening of the chamber body and the second opening; and the atomization module is disposed on the fluid conducting member and has a plurality of spaces connected to the fluid conducting member a micro hole for generating driving power according to the light intensity, and generating an oscillating power according to the driving power; wherein the cover is opened and the working fluid is placed in the chamber body, and the workflow system is a second opening flows into the fluid conducting member to maintain a pressure balance state. When the cover body covers the chamber body, the first opening is blocked, thereby causing the working fluid to be empty in the fluid conducting member. Forming an airtight state "when the oscillation power module is atomized, the atomizing working fluid to the resonance module, and such micro voids by the atomizing working fluid. The atomizing device disclosed in the present invention is applied to a working fluid, and the misting device includes a housing assembly having a chamber body and a cover body for accommodating the working fluid and having Opening, the cover is used to cover the chamber body 'and the working fluid is placed in the chamber body when the opening is open, and the atomizing core group is disposed at the opening of the receiving assembly, and has a plurality of a micro-hole communicating with the opening for generating driving power according to the light intensity, and generating an oscillating power according to the driving power, so as to resonate with the working fluid when the working body of the chamber body is placed with the working fluid The micropores atomize the working fluid. ❹ "As described above, the atomization module of the present invention generates driving power to the oscillating member according to the light intensity by the power source component, thereby generating oscillating power to the atomizing member, causing the atomizing member to resonate with the working fluid, and The working fluid is atomized by the micropores, and the atomizing device of the present invention cooperates with the atomizing module by having a receiving component for accommodating the Shai working fluid, and selectively increases fluid conduction. In order to generate an atomizing effect when the atomizing module generates the oscillating power, the present invention generates driving power by the power source component ❹ according to the prior art, thereby enabling the atomization of the present invention. The module and the atomizing device are effectively used at an appropriate timing, and the spraying of the working fluid can be performed in a timely and quantitative manner, without being incapable of using the atomizer when used in traffic work in the prior art. Causes fuel consumption increase, damage to items, malfunction of function, or deterioration of food, and it does not affect the heatstroke of farmers or environmental protection when sprayed with chemicals in the prior art. And affecting the situation of the consumer, and achieving the above-mentioned effects. [Comprehensive mode] The following is a specific embodiment to illustrate the implementation of the present invention 110958 8 201016321, those skilled in the art can understand the present specification Other advantages and effects of the invention. The invention may also be implemented or applied by the embodiment of the invention, and the various aspects and applications of the invention may be modified and changed without departing from the invention. As shown in Figures 1 to 8, 'is the atomization module and the atomization device of the present invention-=the image of the figure. It should be noted that the drawings are simplified W diagrams only in a schematic manner. The basic architecture of the present invention is illustrated. Therefore, only the components related to the present invention are shown in the drawings, and the components shown are not the same as the number, shape, and size ratio of the actual implementation. The number, shape and size ratio of the continuous implementation are a selective design: and the layout of the components may be more complicated, and the combination is first and foremost. As shown in Fig. 1, the fog is the invention. Model A block diagram of an embodiment of the present invention, wherein the atomization module of the present invention is applied to a working fluid (not shown). In practice, the working fluid may be, for example, water, a medicament, or an essential oil. The module i includes: a power source assembly 1G, a vibration member 11 and an atomization #12. The following is a detailed description of an embodiment of the above-mentioned atomization module 1 of the present invention: The power source assembly 10 For generating driving power according to the light intensity, the power source assembly 1 includes: a solar panel 100, a control 1C101, a solar cell 102, a transducer (lnverter) 103, and a photometric switch 1〇4' The solar panel 1 is configured to receive direct current driving power to generate direct current driving power, and the control IC 101 is electrically connected to the solar panel 100 for receiving the DC driving power and transmitting the same. 9 110958 201016321 The solar battery 102 The control IC 101 is electrically connected to receive and store the DC drive power, and the transducer 1 〇3 is electrically connected to the solar cell '102 for receiving the DC drive. Power is generated to generate AC drive power. The photometric switch 104 is electrically connected to the transducer 1〇3 for providing the AC drive power to the vibrating cover member 11 ′ according to the intensity of the solar sun. As shown in the figure, the control I c 1 〇1, the solar cell 102, the transducer 1 〇3, and the photometric switch 1 〇4 are disposed on a circuit board 105. In addition, in other embodiments (not shown), the power source assembly 1 may include a battery and a switch, wherein the battery is electrically connected to the transducer 103 and stored with a DC drive. In the actual implementation, the battery can be, for example, a disposable battery, a rechargeable battery, a fuel cell, etc., and the switch-on relationship is electrically connected to the solar battery cartridge 2 and the battery for the user to perform the switching. The solar cell i 〇 2 and the selection of the battery, and the battery in this embodiment is arranged to function as a source of power for use, although in another embodiment (not shown), the power source assembly 10 A power switch can be added to turn the power on or off (Οη/Off), so in some situations, such as when the user turns the power = off, because the sun illuminates the solar panel The solar pool 102 continues to store power, or when it is used in the past, the power stored in the solar battery b 102 is not exhausted, that is, the power is turned off, so when the user turns on the power again. Direct application to the power stored within the solar cell module Shu Shu 〇2 atomizing case of 'without available when the sun is high' so 'that the addition of the battery is not necessary for the person. 110958 10 201016321 The oscillating member 11 is electrically connected to the power source assembly 1 for receiving the driving power to generate vibration power. In the present embodiment, the oscillating piece '11 is a vibration (four)' and the material thereof is a piezoelectric material. In actual implementation, the oscillating member 11 can be located as shown in the second (A) and 2 (B) drawings. The center of the atomizing member 12. Of course, in other embodiments, the shape, the number, and the position of the oscillating member n can also be designed according to requirements, and are not limited by the embodiment, as shown in FIGS. 3(A) and 3(B). The vibrating member u can be a vibrating block or an oscillating plate, and the oscillating member U can be located on a side of the atomizing member 12, and when the oscillating member is two oscillating blocks or oscillating plates, Its position can be located on both sides of the atomizing member 12. The atomizing member 12 is connected to the oscillating member U, such as disposed on the oscillating member 11, and is in contact with the working fluid, and has a plurality of micro-holes 120 for receiving the oscillating power to resonate with the working fluid. And atomizing the working fluid by the micropores/same 120. In the present embodiment, the atomizing member 12 is a porous membrane. As shown in Figures 4(A) and 4(B), it is a schematic diagram of two embodiments of the structure of the micro-holes 120 on the atomizing member 12 of the fogging module 1 of the present invention, wherein The micro-cavity 120 structure of Fig. 4(A) can make the working fluid produce a concentrated and straight-line spray effect when atomizing, if the micro-hole 120 structure of Fig. 4(B) is applied, The micro-holes 120 are disposed on the atomizing member 12 in an eccentric manner, so that the working fluid can produce a more dispersed spray effect upon atomization. Of course, the two micropores 120 structures exemplified herein are for illustrative purposes only, and are not intended to limit the micropore 120 structure that can be implemented by the present invention. In practice, the micropore 120 structure can also be designed according to requirements, for example, The two types of micro π 110958 201016321 holes 120 are combined with each other. In addition, in order to atomize the crater and the hole (10) to produce a preferred micro-droplet, the aperture of the atomizing member ^, the hole > and 120 is preferably 8 Å or less. Further, the micropores (10):: can be symmetrical or asymmetrical, and the materials of the micropores are materials which are partially filled with low surface energy. Heart again = the atomization amount of the atomized amount 1 of the present invention can be based on sunshine intensity. For example, the stronger the sunshine intensity, the power source component 1 〇 provides = the higher the AC drive power, and thus the vibration of the (four) piece n The power is also strong, so 'there is the higher the atomization amount of the atomizing member 12 for the working fluid, the better the heat dissipation effect for the parenting tool under the tenth, and vice versa, the weak or even no When the light is taken, the atomization amount is lower or even the atomization is stopped, thereby reducing the moisture in the vehicle without causing the air in the vehicle to be too humid. Further, as shown in FIG. 5, it is an embodiment of the atomizing device of the present invention. In the figure, the atomizing device of the present invention is applied to a working fluid (not shown). The working fluid may be, for example, water, a medicament, an essential oil, etc. The atomizing device includes a housing assembly 2, a fluid conducting member 3, and an atomizing module 1. The following is a detailed description of the embodiments of the above-mentioned atomizing device of the present invention. The housing assembly 2 has a chamber body 20 and a cover body 21 for accommodating the work. The fluid has a first opening 200 and a second opening 20. The cover 21 covers the chamber body 20, and the first opening 2 is blocked by the SB and is placed at the time of opening. The working fluid is introduced into the chamber body 2〇. In this embodiment, the first opening 200 110958 12 201016321 is located at the upper end of the chamber body 20 and the cover body 21 covers the chamber body 20. The second opening 201 is located at the lower end of the chamber body 2 At the office. The two ends of the fluid conducting member 3 are respectively connected to the first opening 2 0 0 and the second opening 2 01 of the chamber body 2〇. In the present embodiment, the fluid conducting member 3 is a plastic material such as a plastic hose. The atomization module 1 is disposed on the fluid conducting member 3 and has a plurality of micropores communicating with the space in the fluid conducting member 3 for generating driving power according to the light intensity, and generating the driving power according to the driving power. Oscillation moves. In this embodiment, the atomization module! The power source assembly, the oscillating member and the atomizing member are configured to generate driving power according to the light intensity, and the oscillating member is electrically connected to the power source assembly for receiving the driving power. An oscillating force is generated, and the atomizing member is connected to the oscillating member, such as disposed on the oscillating member, and has a plurality of micro holes that communicate with the space in the fluid conducting member 3 to receive the vibration Resonating with the working fluid, and atomizing the working fluid body by the micropores, wherein the power source assembly further comprises: a solar panel, a control ic, a solar cell, a transducer, and a photometric switch, Wherein, the solar panel is configured to receive direct current driving power to generate DC driving power, and the control IC is electrically connected to the solar panel for receiving and transmitting the DC driving power, and the solar battery system and the control IC are electrically connected. a connection for receiving and storing the DC drive power, the transducer being electrically connected to the solar cell for receiving the DC drive power to generate AC drive power The light f apart relation to the transducer is electrically connected, for providing AC drive power to the oscillation of the member households based solar insolation intensity. In addition, in other implementations 2Π 0958 13 201016321 = The power source component can include: battery and cut (four) off, where, ~ ~ pool is connected with the (four) power (four), the domain contains direct dynamic power, when implemented The battery can be, for example, a secondary battery, a rechargeable battery, and the like, and the battery is electrically connected to the solar battery and the battery for the user to perform the switching to perform the solar battery and the battery. The vibrating member is a vibrating ring, a vibrating block, and (four) one of the pieces, the material of which is an I electric material, and the vibrating cover member is located at the center or side of the atomizing member or _, And the atomizing member is a porous membrane, and the shape of the micropores such as the crucible may be symmetrical or asymmetrical, and the material of the micropores is a material partially filling the low surface energy. It should be noted that the atomizing module J in this embodiment of the atomizing device of the present invention is similar to the atomizing module i described above. Therefore, the detailed components included in the atomizing module i are not given. As shown in the figure, but in actual implementation, please refer to the pattern of the aforementioned atomization module (Articles 2(A) ' 2(8), 3(A), 3(B), 4(A) and 4(B) Figure) and related instructions. According to the above, when the user opens the cover 21 and inserts the working fluid into the chamber body 20, the workflow system flows into the fluid conducting member 3 via the second opening 2〇1 to maintain a pressure balance state. When the cover body 21 covers the chamber body 20, since the first opening 2 is blocked, the space having the working fluid in the fluid conducting member 3 is formed into an airtight state, and when the mist is formed, When the modulating power is generated, the atomizing module 1 resonates with the working fluid and atomizes the working fluid by the micro holes, and it is additionally illustrated that, as shown in FIG. During the process, since the space of the working fluid 4 in the fluid conducting member 3 is in a state of airtightness 110958 14 201016321, a function similar to a pump is generated, that is, the working fluid 4 is atomized into a microfluid. When the droplets are diverged, the working fluid 4 in the fluid conducting member 3 is reduced because: the fluid conducting member 3 exhibits a negative pressure state 'in order to enable pressure; and is accommodated in the housing assembly 2 Working fluid 4 g in the chamber body 20 The second opening 201 is sucked into the fluid conducting member 3, and the chamber body of the receiving unit 2 is continuously supplied with the fluid conducting member 3_g during the second atomization process. The working fluid 4, which is placed in the chamber body 20 of the continuation 10, is used up, that is, it is not necessary to replenish the working fluid 4 in the chamber body 20 of the cockroach 2 in a short time. . 19 Again, thanks to the atomization module! Is disposed on the fluid, and the fluid conducting member 3 is not fixed on the receiving component 2 (only the first opening of the fish receiving component 2 is connected to the second opening 2〇1), ie The atomization module 1 can be adjusted at will, so that it is extremely convenient. As shown in Figure 7, it is a schematic view of another embodiment of the atomizing device of the present invention. In the figure, the atomizing device of the present invention is applied to the working fluid (not shown). In actual implementation, the The working fluid may be, for example, water, a medicament, an essential oil, or the like, and the atomizing device includes: a housing group #2 and an atomizing module, that is, an upper covering member included in the atomizing device of the present invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT: The binding assembly 2 has a chamber body 20 and a cover body 21 for receiving the working fluid and having an opening 2 () 2, the cover] 10958 15 201016321 The body 21 is configured to cover the chamber body 20' and to insert the working fluid into the chamber body 20 when opened. In the present embodiment, the opening 202 is in the position: at the lower end of the chamber body 20. The atomization module 1 is disposed at the opening 202 of the receiving component 2, and has a plurality of micropores communicating with the opening 202 for generating driving power according to the light intensity, and generating an oscillation power according to the driving power. When the working fluid is placed in the chamber body 20, it is resonated with the working fluid and the working fluid is atomized by the micropores (as shown in FIG. 8). In the embodiment, the atomization module 1 includes: a power source component, a vibration component, and an atomization component, wherein the power source component is configured to generate driving power according to the light intensity. The source component is electrically connected to receive the driving power to generate oscillating power, and the atomizing component is connected to the oscillating member as disposed on the oscillating member and has a plurality of micro-holes communicating with the opening 202. Receiving the vibration power to resonate with the working fluid, and atomizing the working fluid by the micro holes, wherein the dynamic force component further comprises: a solar panel, a control IC, a solar cell, and a transduction And a photometric switch, wherein the solar panel is configured to receive direct sunlight to generate direct current driving power, and the control IC is electrically connected to the solar panel for receiving and transmitting the direct current driving power, the solar battery system and The control 1C is electrically connected to receive and store the DC drive package power. The switch energy is electrically connected to the solar battery, and is used to connect the DC drive power to generate an AC drive. The galvanic power is electrically connected to the transducer to provide the AC drive power to the oscillating member according to the intensity of the solar sun. In addition, in other embodiments, the power source assembly 110958 16 201016321 j may include a battery and a switch, wherein the battery is electrically connected to the transducer and stored with DC drive power. Electricity. The pool can be, for example, a disposable battery, a rechargeable battery, a fuel cell, etc., and the switch-off relationship is electrically connected to the solar cell and the battery for the user to switch to perform the solar cell and the selection of the battery. The oscillating member is one of an oscillating ring, an oscillating block and an oscillating plate, and the material is a piezoelectric material. The oscillating member is located at a center or one side or both sides of the atomizing member, and the atomizing member is In the case of a porous membrane, the shape of the micropores may be symmetrical or asymmetrical, and the material of the micropores is a material partially filled with low surface energy. It should be noted that, since the atomization module 1 in this embodiment of the atomization device of the present invention is similar to the atomization module 前述 described above, the detailed components included in the atomization module 1 are not For the illustration, but the actual implementation, you can refer to the above-mentioned pattern of the atomization module i (Di 2 (〇, 2〇), ' 3 (A), 3 (B), 4 (A) and 4 (B) Figure) and related instructions. In addition, since the opening 202 is located at the lower end of the chamber body 2, and the atomization module 1 is disposed at the opening 2〇2 of the receiving assembly 2, it is almost completely complete during the atomization process. The working fluid contained in the chamber body 20 of the accommodating assembly 2 is sprayed out without replenishing the working fluid in the chamber body 2 of the accommodating assembly 2 in a short time. Furthermore, since the atomization module of the present embodiment is disposed at the opening 202 of the accommodating assembly 2, it is coupled with the wall surface of the lower end of the chamber body 20, and therefore, if placed outside or under the sun, Reduce the impact of sun and rain on the atomization module i. Of course, during the use of the above-mentioned atomization module and atomization device, 110958 17 201016321 can also be used in conjunction with wind or other devices to increase the spray range of micro-liquid droplets generated by atomization. Moreover, the atomization module of the present invention and the atomization module of the atomization device can simultaneously use a plurality of oscillating members with different driving frequencies, and are driven by multi-frequency power, so that a plurality of oscillating members can simultaneously perform different frequencies. The micro-droplet sprays the job and produces more morphing effects. In summary, the atomization module of the present invention generates driving power to the oscillating member according to the illumination intensity by the power source component, thereby generating oscillating power to the atomizing member, so that the atomizing member resonates with the working fluid. And atomizing the working fluid by the micropores, and the atomizing device of the present invention selectively increases the fluid by having a receiving component for accommodating the working fluid and the atomizing module. The conductive member generates an atomizing effect when the atomizing module generates the oscillating power. Compared with the prior art, the present invention generates driving power by using a power source component, whereby the atomizing module and the atomizing device of the present invention can be effectively used in an appropriate machine, for example, parking the vehicle in When the vehicle is operated under the sun or under the sun, it is an appropriate time to dissipate heat in the traffic, and since the power source component of the present invention generates driving power according to the light intensity, No extra, you can do it yourself. 1 In addition, when the atomizing module and the atomizing device of the present invention are applied to the drug Qu Li job, the atomizing module and the atomizing device of the present invention can be placed in one or several of the ... Position, so that when the sun is shining every day, the spraying of the medicament is automatically carried out. Thus, the spraying of the working fluid can be performed in a timely and quantitative manner. 110 110958 201016321 KE De & sentence π application of the atomizing module of the invention and atomization Not only when the device is used in the vehicle, but also when the vehicle is used, the situation that the service state cannot be used is caused, and the fuel consumption is selected. (3) π, damage of the article, deterioration of the malfunction of the function occurs, and it is more avoidable. When used in the pharmaceutical industry, the technology causes the farmer to suffer from heatstroke or affects the environment. If the situation occurs to the consumer, the use can be achieved at the appropriate time, and the working fluid can be sprayed in a timely and quantitative manner. OBJECTS OF THE INVENTION The present invention is merely illustrative of the principles of the invention and its function of the invention. Any person skilled in the art can modify the above embodiments in the spirit of the present invention. Therefore, the scope of the present invention should be as defined in the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram showing an embodiment of an atomizing module of the present invention; 〇 2(A) and 2(B) are the vibration of the atomizing module of the present invention. Schematic diagram of two embodiments of the atomizer and the atomizer; FIGS. 3(A) and 3(B) are schematic views of two other embodiments of the vibrating member and the atomizing member of the atomizing module of the present invention; 4(A) and 4(B) are schematic views of two embodiments of the micropore structure on the atomizing member of the atomization module of the present invention; FIG. 5 is an atomizing device of the present invention. Figure 6 is a schematic view showing an embodiment of the atomizing device of the present invention. 110958 19 201016321; Figure 7 is a schematic view showing another embodiment of the atomizing device of the present invention; The figure is a schematic diagram of another embodiment of the atomizing device of the present invention. [Main component symbol description] 1 atomization module 10 power source assembly 100 solar panel 101 control 1C 102 solar cell 103 transducer 104 photometric switch 105 circuit board 11 oscillating member 12 atomizing member 120 micro hole 2 housing assembly 20 cavity Chamber body 200 first opening 201 second opening 202 opening 21 cover body 3 fluid conducting member 4 working fluid 20 110958