1337878 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種霧化空氣清淨機,是利用霧化狀之液體與 氣體中的粉塵混合,再利用慣性、離心力、霧化狀液體之附著力 及冷凝器作用去除粉塵之設計者。 【先前技術】 按,現今的室内空調系統中,經營者在成本考量下,大多採1337878 IX. Description of the Invention: [Technical Field] The present invention relates to an atomizing air purifying machine which uses an atomized liquid to mix with dust in a gas, and then uses inertia, centrifugal force, and atomized liquid to adhere thereto. The designer of the force and condenser action to remove dust. [Prior Art] According to the current indoor air conditioning system, the operators mostly use the cost considerations.
用先天不良的空調系統,有80%〜90%幾乎是在密閉式的空間使 用空調系統。密閉式空間内使用空調系統因室内換氣不足,致使 室内空氣品質惡化或環料舒適,長久τ來足崎彡響健康、造成 不適’進而破壞人體免疫系統。 為解決前述之問題,—般係使用不同機獅空氣清淨機,使 室内空氣中懸浮微粒、臭味、揮發性氣體、過敏物 機所猶絲,並且能_解決如換氣率不良錢風不良等因 素所導致Μ空氣之污染濃度提高關題。細大部分之空氣清 淨機都以遽網為主要過遽元件。該濾網為消耗零件必須^時更 ^低如败^氣清淨機之過毅氣之效能大幅度 '、、濾網,鞭換細之累積費用又太大。 我國專利公告號第 種霧化空氣清淨機。該空氣利索係揭露-霧化__㈣物==== 至該離心扇’再利用離心力達到除塵過濾之效果: 清淨U氣者。然而魏空氣清賴係採直立式設計使其必須 +用k大n又销化空氣赫機錢道促進航混合的設 ^致,、塵效果較差’且礙於前述制空間之問題,該霧化空 氣w尹機不適合驗巾央空調系統。再者,該霧化空氣清淨機在 長時間使訂,必魏姐意«狀液體之液面,造成使用 上的不便。 有鑑於此’吾等本發明人係騎習知妓清淨機在使用時所 產生之缺失,經長期時間研究後,始有本案之產生。 【發明内容】 本發明係提供一種霧化空氣清淨機之發明,其目的在於利用 務化產生器將液體擊振成霧化狀液體,使每個微細液體分子很容 易與空氟中的粉塵結合,並利用多重通道設計及風扇之配合使 用,且通道兩側之擋板可為網板,使霧化狀液體易和粉塵混合, 使與霧化狀液體混合之粉塵因慣性、離心力、霧化狀液體之附著 力及其冷凝作用,而達到除塵除濕過濾效能,進而提供清涼清淨 之空氣。 為能實現上述之發明目的,本發明人提供一種霧化空氣清淨 機,其包含有風洞裝置、霧化產生裝置、風扇及液體補充裝置。 該風洞裝置設有進氣口及出氣口,該風洞裴置内部設有若干呈交 錯間隔排列狀之擋板,且該等擋板間形成有供氣體流通之通道, 以及相對位於該進氣口下方設有儲液槽;該霧化產生裝置設於該 儲液槽,用以使該儲液槽内所儲存之液體呈霧化狀;該風扇設於 1337878 該風洞裝置之内部,該風扇設有吸風口、出風口及排液口,用以 吸取霧化狀之液體,並將液體自读排液口排出;以及該液體補充 裝置與該儲液槽連接,用以補充該儲液槽之液體。 依據上述之構想,其中該檔板佈設有若干通孔。 依據上述之構想,其中該風扇之出風口對應該風洞裝置之出 氣口。 依據上述之構想,其中該出風口與該出氣口之間設有冷凝 器’用以降低該出風口之濕度。 依據上述之構想’其中該風洞裝置之相對位於該風扇下方處 設有斜板’用以承接該風扇所排出之液體。 依據上述之構想,其中該風洞裝置設有廢液槽,該廢液槽設 有供液體流出之通孔,用以承接該斜板所流出之液體,並將該液 體排出於該風洞裝置之外。 依據上述之構想,其中該風扇與斜板之間設有具若干通孔之 網板。 依據上述之構想,其中該風洞裝置設有至少一輔助風扇,用 以當帶有粉塵之氣體進入該風洞裝置時,該輔助風扇啟動後產生 不同方向之渦流,用以使霧化狀液體與粉塵達到充分混合之最佳 效果。 依據上述之構想,其中該液體補充裝置設有液位偵測裝置, 用以偵測該儲液槽内之液位。 7 1337878 【實施方式】 關於本發明讀術手段,辟四較佳實_並配合圖式於下 文進行詳細說明,俾供鈞上了解並認同本發明。 首先,請參閱第-、二圖所示,係本發明霧化空氣清淨機第 -較佳實施例之示賴。於本較佳實施例中,簡化空氣清淨機 係包含有風洞裝置10、霧化產生裝置20、風扇3〇、冷凝器4〇、 液體補充裝置50,其中: 該風洞裝置10係為一種箱體,其設有供氣體進出之進氣口 u 及出氣口 12。該風洞裝i 1〇内部設有若干呈上下交錯fBl隔排列狀 之擋板13,而該等擋板13間形成有供氣體流通之通道13。同時 相對位於该進氣口 11之下方設有儲液槽14。該儲液槽14之一側 設有廢液槽15,該廢液槽15設有供液體流出之通孔151。該廢液 槽15之一側設有斜板16。 該霧化產生裝置20設於該儲液槽14,用以使該儲液槽14内 所儲存之液體呈霧化狀。該霧化產生裝置2〇可係為高頻率超音波 震盪裝置或高壓喷嘴霧化裝置。 該風扇30設於該風洞裝置1〇 ’並位該風洞裝置1〇之斜板16 上方,用以吸取呈霧化狀之液體。本較佳實施之風扇3〇係為一種 離心風扇。該風扇30具有呈蜗形殼狀之殼體,以及設於該殼體内 部之葉輪34。該殼體係由第一殼體31及第二殼體32所組成’且 該殼體成型有一個出風口 33,該出風口 33朝向該風洞裝置1〇之 8 [1337878 出氣口 12。該第二殼體32係朝向該斜板16並設有一吸風口 321 及一道凹槽322,該凹槽322設有若干剖槽323,用以使液體藉該 剖槽323排出於該風扇30之外。該葉輪科設有雙列葉片341,該 葉片341之截面呈弧形曲線,並使該葉片341彎弧方向呈相反之 設計’用以當該葉輪34轉動日寺,可使氣體導出賴扇3〇而不產 生滯留區,讓氣體的導出速度更為平順快速。 該冷凝器4〇設於該風洞裝置1〇之内部,並與該風扇3〇併排 而位於該風扇30之出風口 33,使該冷凝器4Q位於該風扇3〇之出 風口 33與„玄風/同裝置1〇之出氣口 12之間。該冷凝器可外接 有使其產生冷卻魏之裝置,例如與巾央㈣纽之冷水裝置連 接。 該液體補充裝置5G包含有具導管511之儲柿51及液位偵 測裝置52。該導管511係連接於該風難置ι〇之儲液槽14。該 液位憤測裝置52設於·賴14,用以當制繼賴14之液 位未達預設最低時,即使·_ 51内之雜流人補充該儲 液槽14。該舰㈣内可齡水、料臟天鋪油。 當該霧化空氣清淨機在使用時,本實施例之該儲液桶51及該 儲液槽U内所儲存之液體係為水。續請參閱第三圖所示該霧化 空氣清淨機之使用過程如下所述: 1.當帶有難之氣聽由外部之魏裝置或其财式經由該 進氣口 1丨進人該風敏置1G之_時,該舰槽14的水藉由該 9 1337878 霧化產生裝置20擊振,使其呈霧化狀之水分子,令該霧化狀水分 子即與該粉塵結合。同時該風扇30持續運轉產生有吸力,並將帶 、 有粉塵之霧化狀水分子被吸引至該通道131。 .. 2.當該帶有粉塵之霧化狀水分子通過該通道131時,除了在 該通道131中形成渦流,而增加粉塵與該霧化狀水分子之混合時 間外’部分具大粒子之粉塵會因氣體流向急速轉變而與該通道131 兩側之該擋板13碰撞,使粉塵因慣性作用而掉落至位於下方之該 ®廢液槽15 ^其餘該帶有粉塵之霧化狀水分子,則繼續被該風扇30 所吸引通過該通道131。 3. 該帶有粉塵之霧化狀水分子即被吸引經由該風扇3〇之吸風 口 321至該風扇30内部。於該風扇3〇内部中,經由該葉輪34轉 動造成氣體的旋轉運動與旋渦,即增加霧化狀水分子與粉塵充分 混合,並藉由離心力作用將該帶有粉塵之霧化狀水分子甩至該風 鲁扇30之殼體内側壁’使該霧化狀水分子在該内側壁凝結為帶有粉 塵之水滴’並流入該凹槽322,使該帶有粉塵之水滴藉該凹槽吻 之剖槽323流出(如第四圖所示),並流向該斜板16。此時,該風 扇30之出風口 33所送出之氣體㈣已職之乾淨無粉塵氣體, 而該氣體經由該冷凝器40使其含有之細微水分子被凝結,進而降 低該風洞裝置10之出氣口 12濕度。 4. 該斜板丨6上之水獅其斜度而流向該廢液槽15。該廢 液槽15則將帶有粉塵的水經由該通孔151排出於該風洞裝置 1337878 之外。 續請參閱第五騎示,為減空氣清淨機第二較佳實施例。 於本較佳實施射,贿化线清淨機之主要不同在於,該風洞 裝置10内部設有網板Π。該網板17係位於該風扇3〇之下方,且 該網板17佈設有若干通孔171。當帶有粉塵之氣體進入該風洞裝 置10時,該粉塵即與位於該儲液槽14上方之霧化狀液體混合, 並被該風扇30持續運轉產生之吸力所吸引時,使該帶有粉塵之霧 化狀液體有-部分會經由該通孔m進人該風扇3()内部另一部 分則會附著於該網板Π朝向斜板16之端面,而凝結成帶有粉塵 之水滴並滴向該斜板16,再使該水滴沿該斜板16流向廢㈣15, 進而該網板Π即可朗增加_化线清淨機之除㈣渡效能。 續請參閱第六圖所示’為霧化空氣清淨機第三較佳實施例。 於本較佳實_中’該霧化空氣清淨機之主要不同在於該風洞 裝置10之位於贿_ 15上方之擋板13 _設有若干通孔 132。當帶有粉塵之氣體進人該風洞裝置1G肖,該粉塵即與位於 該儲液槽14上方之霧化狀液體混合時,因該風屬3()持續運轉產 生吸力所吸引,而經由該通孔132吸取帶有粉塵之霧化狀液體, 使該霧化狀液體會在该擋板13之端面凝結形成水滴,並八著今拷 板13流向該廢液槽15,進而該擋板13即可達到增加該霧化空氣 清淨機之除塵過濾效能。 續請參閱第七圖所示’為霧化空氣清淨機第喃佳實施例。 1337878 於本較佳實施例中,該霧化空氣清淨機之主要不同在於’該風洞 裝置10之擋板13形成有供氣體流通之通道13丨出口設有一個輔 助風扇60,而該輔助風扇60之數目不以此為限。當帶有粉塵之氣 體進入該風洞裝置時,使在該儲液槽14被該霧化產生裝置2〇而 形成之霧化狀液體與該粉塵,因該風扇3〇持續運轉產生吸力所吸 引進入至該通道131,而該辅助風扇則在被啟動後會產生不同 方向之渦流,即促使該粉塵與該霧化狀液體達到充分混合之最佳 狀態。當帶有粉塵之霧化狀液體被該風扇3〇吸引而進入其内部, 並藉由該風扇30之離心力作用使帶有粉塵之霧化狀液體凝結成水 滴,而排出於該風扇30之外並滴向該斜板16,再使該水滴沿該斜 板16流向廢液槽丨5,進而達到增加該霧化空氣清淨機之除塵過濾 效能。 月’J述所列四個較佳實施例中,該冷凝器4〇係可去除,使該風 扇30之出風口 33直接朝向該風洞裝置10之出氣口 12,而將已過 濾之氣體直接送出。 氣T、上所述,本發明霧化空氣清淨機具有如下所述之優點: L本發明霧化空氣清淨機係藉由在該風洞裝置内之多重通道 設計’使粉塵通過咖氣體流向急速轉變而與該擋板碰撞,使= 塵因本身的慣性作用而與氣流分離,達到除塵過濾之效能。 2.本發明霧化空氣清淨機係設有供氣體流通之多重通道,而 其易使氣體形成渦流,加速促成霧化狀液體和粉塵易混合。當帶 12 1337878 有粉塵之霧化狀液體碰到擋板或網板時,由於液體本身的附著力 會在擋扳或網板形成凝結,進而產生除塵除濕作用。 3. 本發明霧化空氣清淨機係利用霧化狀之液體與氣體中之粉 塵混合,並被該風扇所吸取,而在該風扇之運轉下,使霧化狀液 體與粉塵充分混合’並藉由該風扇之離心力作用使帶有粉塵之霧 化狀液體被甩至該風扇之内側壁,而凝結成較大之液體分子而排 出’進而達到除塵過濾的效能。 4. 本發明霧化空氣清淨機在液體霧化之過程中,霧化之液體 容易因吸熱而氣化,進而產生清涼清淨空氣,同時霧化過程亦會 產生負離子來淨化空氣,可減輕呼吸道負擔,可防止二手煙、過 敏源的侵害。 5. 本發明霧化空氣清淨機係利用液體霧化,並配合該風洞裝 置之通道及該風扇同時作用,而達到可免除使用過渡網,即可過 濾空氣之效能,並同時減少使用濾網時之花費。 6·本發明霧化空氣清淨機所使用之空間小,可廣泛應用於之 空間較小之地方。同時製作成本低,低噪音,設計簡單可以自己 DIY製作。 上所述,本發明確能提供改善習知空氣清淨機所造成之缺 失二可為相關產業廣為细’極具有進步性與職性。本發明 1未見A開’已符合專利法之規定,依法提出發明專利申請。 惟从上所述者’僅縣㈣之較佳實關,當不能以此限定 1337878 本發明實施之細,即大凡依本發财請專聰發明書 内容所作之等效變化與修飾,皆雜屬本發明專利涵蓋之範圍内。 f圖式簡單說明】 _立第-_本發明氣空氣清淨機第―較佳實施例之整體剖視 不意圖,說明霧化空氣清淨機内部結構。 第二圖係第一圖所示之風扇之立體公立 ,,遐刀解不思圖,說明風扇之 結構。With a congenital air conditioning system, 80% to 90% use an air conditioning system in a closed space. The use of an air-conditioning system in a confined space results in insufficient indoor air exchange, resulting in deterioration of indoor air quality or a comfortable ring. It will cause health and discomfort for a long time, and damage the human immune system. In order to solve the above problems, it is common to use different lion air purifiers to make suspended air, odor, volatile gas, and allergens in the indoor air, and to solve problems such as poor air exchange rate and poor money. The concentration of air pollution caused by other factors has increased. Most of the air cleaners use the stencil as the main overrunning component. The filter is a part of the consumption of the parts must be ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ China's patent announcement No. The first atomizing air purifier. The air cable is exposed - atomization __ (four) material ==== to the centrifugal fan's use of centrifugal force to achieve the effect of dust filtration: Clean U gas. However, Wei Air Qing Lai adopts the vertical design, which makes it necessary to use k large n and sell air to promote the mixing of the air, and the dust effect is poor, and the fog is hindered by the aforementioned space problem. The air air Yin machine is not suitable for the air conditioning system. Furthermore, the atomizing air purifier is ordered for a long time, and the liquid surface of the liquid is inevitable, causing inconvenience in use. In view of the lack of the use of the inventor of the present invention, the use of the case has been caused by the long-term study. SUMMARY OF THE INVENTION The present invention provides an invention of an atomizing air purifier, which aims to blast a liquid into an atomized liquid by using a chemical generator, so that each fine liquid molecule can be easily combined with dust in the empty fluorine. And use the multi-channel design and the use of the fan, and the baffles on both sides of the channel can be the stencil, so that the atomized liquid is easy to mix with the dust, so that the dust mixed with the atomized liquid is inertia, centrifugal force, atomization The adhesion of the liquid and its condensation effect, and achieve the dust removal and dehumidification filtration efficiency, thereby providing a cool and clean air. In order to achieve the above object, the inventors provide an atomizing air cleaner comprising a wind tunnel device, an atomizing device, a fan and a liquid replenishing device. The wind tunnel device is provided with an air inlet and an air outlet, and the air tunnel is provided with a plurality of baffles arranged at a staggered interval, and a passage for the gas to flow is formed between the baffles, and the air inlet is located opposite to the air inlet a liquid storage tank is disposed below; the atomization generating device is disposed in the liquid storage tank for atomizing the liquid stored in the liquid storage tank; the fan is disposed inside the wind tunnel device of 1337878, the fan is disposed a suction port, an air outlet and a liquid discharge port for sucking the atomized liquid, and discharging the liquid from the reading liquid discharge port; and the liquid replenishing device is connected with the liquid storage tank to supplement the liquid storage tank liquid. According to the above concept, the baffle is provided with a plurality of through holes. According to the above concept, the air outlet of the fan corresponds to the air outlet of the wind tunnel device. According to the above concept, a condenser 。 is disposed between the air outlet and the air outlet to reduce the humidity of the air outlet. According to the above concept, wherein the wind tunnel device is located opposite the fan, a slanting plate is provided for receiving the liquid discharged by the fan. According to the above concept, the wind tunnel device is provided with a waste liquid tank, and the waste liquid tank is provided with a through hole for the liquid to flow out, and receives the liquid flowing out from the inclined plate, and discharges the liquid outside the wind tunnel device. . According to the above concept, a screen having a plurality of through holes is disposed between the fan and the swash plate. According to the above concept, the wind tunnel device is provided with at least one auxiliary fan for generating vortex flow in different directions after the auxiliary fan is activated when the dust-laden gas enters the wind tunnel device, so as to make the atomized liquid and dust Achieve the best results of thorough mixing. According to the above concept, the liquid replenishing device is provided with a liquid level detecting device for detecting the liquid level in the liquid storage tank. 7 1337878 [Embodiment] The present invention will be described in detail with reference to the following description of the present invention. First, please refer to the first and second figures, which are the preferred embodiments of the atomized air cleaner of the present invention. In the preferred embodiment, the simplified air cleaning device comprises a wind tunnel device 10, an atomization generating device 20, a fan 3〇, a condenser 4〇, and a liquid replenishing device 50, wherein: the wind tunnel device 10 is a box body. It is provided with an air inlet u and an air outlet 12 for gas to enter and exit. The wind tunnel is provided with a plurality of baffles 13 arranged in an up-and-down staggered fBl arrangement, and a passage 13 through which the gas flows is formed between the baffles 13. At the same time, a liquid storage tank 14 is provided below the air inlet port 11. One side of the liquid storage tank 14 is provided with a waste liquid tank 15 provided with a through hole 151 through which the liquid flows out. A swash plate 16 is provided on one side of the waste liquid tank 15. The atomization generating device 20 is disposed in the liquid storage tank 14 for atomizing the liquid stored in the liquid storage tank 14. The atomization generating device 2 can be a high frequency ultrasonic oscillating device or a high pressure nozzle atomizing device. The fan 30 is disposed on the wind tunnel device 1'' and above the swash plate 16 of the wind tunnel device 1 for sucking the atomized liquid. The preferred embodiment of the fan 3 is a centrifugal fan. The fan 30 has a housing in the shape of a volute and an impeller 34 provided inside the housing. The casing is composed of a first casing 31 and a second casing 32, and the casing is formed with an air outlet 33 facing the wind tunnel device 1 [1337878 air outlet 12]. The second housing 32 faces the swash plate 16 and is provided with a suction opening 321 and a recess 322. The recess 322 is provided with a plurality of slots 323 for discharging liquid from the fan 30 through the slot 323. outer. The impeller section is provided with a double row of blades 341, the section of the blade 341 has an arc-shaped curve, and the blade 341 is curved in the opposite direction to 'turn the gas to the gods when the impeller 34 rotates the temple. The enthalpy does not create a retention zone, which allows the gas to be exported more smoothly and quickly. The condenser 4 is disposed inside the wind tunnel device 1 and is arranged side by side with the fan 3〇 and located at the air outlet 33 of the fan 30, so that the condenser 4Q is located at the air outlet 33 of the fan 3 Between the air outlet 12 of the device and the device. The condenser may be externally connected to the device for cooling, for example, to the cold water device of the towel (4). The liquid refill device 5G includes the persimmon with the catheter 511. 51 and a liquid level detecting device 52. The duct 511 is connected to the liquid storage tank 14 of the wind damper. The liquid level intrusion device 52 is disposed at the Lai 14 for use as a liquid level When the preset minimum is reached, even if the shunt person in the _ 51 supplements the liquid storage tank 14. The ship (4) can be oiled in the age of the water and the dirty material. When the atomizing air cleaner is in use, the implementation For example, the liquid storage tank 51 and the liquid system stored in the liquid storage tank U are water. Please refer to the third figure for the use of the atomizing air purifier as follows: 1. When it is difficult to carry When the external Wei device or its financial means enters the wind-sensitive 1G via the air inlet 1, the water of the ship 14 is controlled by the 9 1337878 The atomization generating device 20 vibrates to make atomized water molecules, so that the atomized water molecules are combined with the dust. At the same time, the fan 30 continues to operate to generate suction, and the belt and dust are atomized. The water molecules are attracted to the channel 131.. 2. When the atomized water molecules with dust pass through the channel 131, in addition to forming eddy currents in the channel 131, the dust and the atomized water molecules are added. Outside the mixing time, the dust of the large particles will collide with the baffle 13 on both sides of the channel 131 due to the rapid change of the gas flow, so that the dust is dropped by inertia to the ® waste liquid tank 15 below. The remaining atomized water molecules with dust continue to be attracted by the fan 30 through the passage 131. 3. The atomized water molecules with dust are attracted to the air inlet 321 of the fan 3 to Inside the fan 30, in the interior of the fan 3, the rotation of the impeller 34 causes rotation of the gas and vortex, that is, the atomized water molecules and the dust are sufficiently mixed, and the dust with dust is applied by centrifugal force. Chemical water molecules The inner side wall of the casing of the wind fan 30 causes the atomized water molecules to condense on the inner side wall into dusty water droplets 'and flows into the groove 322, so that the dusty water droplets are cut by the groove The tank 323 flows out (as shown in the fourth figure) and flows to the swash plate 16. At this time, the gas (4) sent from the air outlet 33 of the fan 30 is clean and dust-free, and the gas passes through the condenser 40. The fine water molecules contained therein are condensed, thereby reducing the humidity of the gas outlet 12 of the wind tunnel device 4. The water lion on the swash plate 6 is inclined to the waste liquid tank 15. The waste liquid tank 15 is Water with dust is discharged through the through hole 151 outside the wind tunnel device 1337878. For continued reference to the fifth ride, a second preferred embodiment of the air purifier. The main difference between the preferred embodiment and the bribery line cleaning machine is that the wind tunnel device 10 is internally provided with a stencil. The stencil 17 is located below the fan 3, and the stencil 17 is provided with a plurality of through holes 171. When the dust-laden gas enters the wind tunnel device 10, the dust is mixed with the atomized liquid located above the liquid storage tank 14, and is attracted by the suction force generated by the continuous operation of the fan 30, so that the dust is brought to the dust. The atomized liquid has a portion that enters through the through hole m. The other portion of the fan 3 () is attached to the end face of the stencil facing the swash plate 16, and condenses into a dusty water droplet and drops toward The swash plate 16 further causes the water drop to flow along the swash plate 16 to the waste (four) 15, and the stencil can be increased to increase the radiant power of the defrosting line. Continuing to refer to the sixth embodiment, the third preferred embodiment of the atomizing air cleaner. The main difference of the atomizing air cleaner in the present invention is that the baffle 13 of the wind tunnel device 10 above the bribe 15 has a plurality of through holes 132. When the dust-laden gas enters the wind tunnel device 1G, the dust is mixed with the atomized liquid located above the liquid storage tank 14, and is attracted by the continuous operation of the wind 3 (). The through hole 132 sucks the atomized liquid with dust, so that the atomized liquid will condense on the end surface of the baffle 13 to form a water drop, and the current flap 13 flows to the waste liquid tank 15, and the baffle 13 The dust removal filtration efficiency of the atomizing air cleaner can be increased. Continued as shown in the seventh figure, which is the embodiment of the atomizing air purifier. 1337878 In the preferred embodiment, the main difference of the atomizing air cleaner is that the baffle 13 of the wind tunnel device 10 is formed with a passage 13 for gas circulation, and an auxiliary fan 60 is provided at the outlet, and the auxiliary fan 60 is provided. The number is not limited to this. When the dust-laden gas enters the wind tunnel device, the atomized liquid formed by the atomization generating device 2 in the liquid storage tank 2 and the dust are attracted by the continuous operation of the fan 3〇. To the channel 131, the auxiliary fan will generate eddy currents in different directions after being activated, that is, to optimize the state in which the dust and the atomized liquid are sufficiently mixed. When the atomized liquid with dust is sucked into the inside by the fan 3〇, and the atomized liquid with dust is condensed into water droplets by the centrifugal force of the fan 30, and discharged outside the fan 30. And the sloping plate 16 is dripped, and the water droplets are caused to flow along the swash plate 16 to the waste liquid tank 5, thereby increasing the dust removal filtering performance of the atomizing air cleaner. In the four preferred embodiments listed in the section, the condenser 4 can be removed, so that the air outlet 33 of the fan 30 directly faces the air outlet 12 of the wind tunnel device 10, and the filtered gas is directly sent out. . Gas T, as described above, the atomizing air purifier of the present invention has the following advantages: L The atomizing air purifying machine of the present invention rapidly changes the dust flow through the coffee gas by the multiple channel design in the wind tunnel device Collision with the baffle causes the dust to separate from the airflow due to its inertia, achieving the efficiency of dust removal filtration. 2. The atomizing air purifying machine of the present invention is provided with multiple passages for gas circulation, and it is easy to cause the gas to form a vortex, which accelerates the atomization-like liquid and the dust to be easily mixed. When the dusty atomized liquid of the belt 12 1337878 hits the baffle or the stencil, the adhesion of the liquid itself will form a condensation on the baffle or the stencil, thereby generating dust removal and dehumidification. 3. The atomizing air purifying machine of the present invention uses the atomized liquid to mix with the dust in the gas and is sucked by the fan, and under the operation of the fan, the atomized liquid and the dust are thoroughly mixed' By the centrifugal force of the fan, the atomized liquid with dust is sucked to the inner side wall of the fan, and condensed into larger liquid molecules to be discharged to further achieve the performance of dust removal filtration. 4. In the process of liquid atomization of the atomized air purifier of the present invention, the atomized liquid is easily vaporized by heat absorption, thereby generating cool and clean air, and the atomization process also generates negative ions to purify the air, thereby reducing the burden on the respiratory tract. It can prevent the damage of second-hand smoke and allergens. 5. The atomizing air purifying machine of the present invention utilizes liquid atomization, and cooperates with the passage of the wind tunnel device and the fan to simultaneously act, thereby eliminating the use of the transition network, thereby filtering the air, and simultaneously reducing the use of the filter screen. The cost. 6. The atomizing air purifier of the present invention has a small space and can be widely used in a small space. At the same time, the production cost is low, the noise is low, and the design is simple and can be made by DIY. As described above, the present invention can indeed provide an improvement in the disadvantages caused by conventional air purifiers. The invention 1 does not see A open 'has been in compliance with the provisions of the patent law, and filed an invention patent application according to law. However, from the above description, only the county (four) is the best practice. When it is not possible to limit the implementation of the invention, the equivalent changes and modifications made by the content of the special invention are all mixed. It is within the scope of the patent of the present invention. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The second picture shows the three-dimensional publicity of the fan shown in the first figure.
一較佳實施例之實施示意 向及過濾粉塵之過程。其 以虛線箭頭表示水滴流動 第三圖係本發明霧化空氣清淨機第 圖,姻霧化空氣清淨機之氣體流動方 圖中以實線箭頭表示為氣體流動方向; 方向。 塵之其圖中以實線箭頭表示氣體流動方向。 矛音發明霧化空氣清淨機第二較佳實施例之整體剖視 不思圖,說明霧化空氣清淨機 為氣體流動方向w虛奸私 其圖中以實線箭頭表示 虛雜職4輯動方向。 弟”圖係本發明霧化空氣清 示意圖,說明霧化空氣清淨二實施例之整體剖視 為㈣流動方向。 H其圖中以實線箭頭表示 示意圖,說明霧清净機第吨佳實施例之整體剖視 霧化空氣清淨機内部結構。其圖中以實線箭頭表示 1337878 為氣體流動方向。 【主要元件符號說明】The implementation of a preferred embodiment illustrates the process of filtering and dusting. The flow chart of the water droplets is indicated by a dashed arrow. The third figure is the first embodiment of the atomizing air purifier of the present invention. The gas flow pattern of the atomizing air purifier is indicated by a solid arrow in the direction of gas flow; In the figure of the dust, the direction of the gas flow is indicated by solid arrows. Spear sound invention atomized air purifier second overall embodiment of the overall cross-sectional view, indicating that the atomizing air purifier is the gas flow direction w vain private figure in the figure with a solid arrow to indicate the miscellaneous job 4 direction. The figure of the present invention is a schematic diagram of the atomizing air clearing of the present invention, and the overall cross-section of the atomized air cleaning embodiment is regarded as (4) flow direction. H is a schematic diagram showing solid arrows to illustrate the preferred embodiment of the mist cleaning machine. The internal structure of the atomizing air purifier is taken as a whole. In the figure, the solid arrow indicates that 1337878 is the gas flow direction. [Main component symbol description]
10 風洞裝置 11 進氣口 12 出氣口 13 擋板 131 通道 132 通孔 14 儲液槽 15 廢液槽 151 通孔 16 斜板 17 網板 171 通孔 20 霧化產生裝置 30 風扇 31 第一殼體 32 第二殼體 321 吸風孔 322 凹槽 323 剖槽 33 出風口 34 葉輪 341 葉片 40 冷凝器 50 液體補充裝置 51 儲液桶 511 導管 52 液位偵測裝置 60 輔助風扇10 Wind tunnel device 11 Inlet port 12 Outlet port 13 Baffle 131 Channel 132 Through hole 14 Reservoir 15 Waste tank 151 Through hole 16 Slant plate 17 Stencil 171 Through hole 20 Atomization device 30 Fan 31 First housing 32 Second housing 321 Air vent 322 Groove 323 Groove 33 Air outlet 34 Impeller 341 Blade 40 Condenser 50 Liquid replenishing device 51 Reservoir 511 Catheter 52 Level detection device 60 Auxiliary fan