TWM331982U - Ozone water supplying apparatus containing drying structure - Google Patents

Ozone water supplying apparatus containing drying structure Download PDF

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Publication number
TWM331982U
TWM331982U TW96221409U TW96221409U TWM331982U TW M331982 U TWM331982 U TW M331982U TW 96221409 U TW96221409 U TW 96221409U TW 96221409 U TW96221409 U TW 96221409U TW M331982 U TWM331982 U TW M331982U
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Taiwan
Prior art keywords
ozone
air
water
dry
chamber
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TW96221409U
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Chinese (zh)
Inventor
yong-ji Song
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yong-ji Song
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Priority to TW96221409U priority Critical patent/TWM331982U/en
Publication of TWM331982U publication Critical patent/TWM331982U/en

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  • Oxygen, Ozone, And Oxides In General (AREA)
  • Treatment Of Water By Oxidation Or Reduction (AREA)

Description

M331982 室間61 空間部61a 乾燥劑62 過濾網63 烘乾結構70 電熱體71 電子線路72 按鈕73 LED指示燈74 空氣泵75 管路76 開孔77 導線80 八、新型說明: 【新型所羼之技術領域】 本創作係有關一種具乾燥結構之臭氧水供水裝置,尤 指一種在其進氣系統中設置一乾燥結構,使外界空氣經由 該進氣系統之入風口進入臭氧產生器内部時,可藉該乾燥 結構先有效濾除空氣中之雜質及水份,藉以避免臭氧產生 器損壞並相對增進臭氧產生器及供水裝置之使用壽命者。 【先前技術】 按,市面上已有臭氧應用在水龍頭上之設計或產品, 如國内公告號第48660號「一體前置式臭氧水龍頭」新型 專利、公告號第M261283號「臭氧與水自動混合器」新型 專利、及公告號第M276924號「臭氧水龍頭」新型專利 (係本案創作人所有);其中,就氣水混合方式或技術而 言,大都是在氣水混合管適當位置上設置一徑縮之喉管, 以使臭氧能迅速由該徑縮喉管注入該氣水混合管内並和水 均勻混合,由此可知利用一具有徑縮喉管之氣水混合管係 • M331982 一氣水混合技術領域之習知技術;再就啟動方式或技術而 言,公告號第48660號專利係利用一般觸動開關或紅外線 感應開關;而公告第M261283號或公告第M276924號專利 係利用二導電性接點分別凸露在氣水混合管中之進/出水 段内部,以藉水感應而電性導接,即打開/關閉水龍頭出 /止水後可自動啟動/關閉臭氧產生器以產生/終止臭 氧,形成一般通稱之水感應開關;然,依消費者使用習 慣,大部分臭氧水供水裝置常係設在較為潮濕或濕氣較大 之浴廁或廚房中,使用時常會吸入含有水氣之空氣,使用 日久後由於空氣中所含之水分或雜質進入並囤積在臭氧產 生器中致影響臭氧產生器之臭氧產生效率甚至造成故障; 因此,就目前廣泛使用之臭氧水供水裝置而言,如何有效 提昇臭氧供應裝置之使用壽命,乃為此類產品首要解決之 問題,而本創作即是針對臭氧供應裝置之使用壽命而提出 解決方案者。 【新型内容】 本創作主要目的乃在於提供一種具乾燥結構之臭氧水 供水裝置,該臭氧水供水裝置係連接裝設在一水龍頭之出 口端上使用,主要包含一進氣系統、一臭氧產生器、一臭 氧輸送管及一由一徑縮喉部構成之氣水混合管,當打開水 龍頭供水時,水可經由氣水混合管之徑縮喉部向下沖流, 並對臭氧輸送管產生一負壓吸引作用,可吸引外界空氣經 由進氣系統進入臭氧產生器而藉以產生臭氧,並由臭氧輸 送管輸通至該徑縮喉部以吸入氣水混合管内以與水混合; 4 • M331982M331982 Room 61 Space Part 61a Desiccant 62 Filter 63 Drying Structure 70 Electric Heater 71 Electronic Circuit 72 Button 73 LED Indicator 74 Air Pump 75 Line 76 Opening 77 Wire 80 Eight, New Description: Technical field] The present invention relates to an ozone water supply device with a dry structure, in particular, a dry structure is arranged in the air intake system, so that outside air enters the ozone generator through the air inlet of the air intake system, By using the dry structure, the impurities and water in the air are effectively filtered out to avoid damage to the ozone generator and relatively improve the service life of the ozone generator and the water supply device. [Prior Art] According to the design or products that have been applied to the faucet on the market, such as the domestic patent No. 48860 "Integrated front-mounted ozone faucet" new patent, the bulletin No. M261283 "automatic mixing of ozone and water "New" patent, and the new patent of "Ozone faucet" No. M276924 (owned by the creator of the case); among them, in the gas-water mixing mode or technology, most of them are set in the proper position of the gas-water mixing pipe. The pipe is shrunk so that ozone can be quickly injected into the gas-water mixing pipe from the pipe and mixed uniformly with water. Thus, it is known that a gas-water mixing pipe with a diameter-reducing pipe is used. Conventional technology in the field; in terms of starting mode or technology, the patent No. 48660 uses a general touch switch or an infrared sensor switch; and the patent No. M261283 or the notice No. M276924 utilizes two conductive contacts respectively. It is exposed inside the inlet/outlet section of the gas-water mixing pipe, and is electrically connected by water sensing, that is, it can be automatically opened after opening/closing the faucet out/stopping water. / Turn off the ozone generator to generate / terminate ozone, forming a commonly known water sensor switch; however, according to consumer habits, most of the ozone water supply device is often located in a relatively humid or humid bathroom or kitchen When used, it often inhales air containing moisture. After using it for a long time, the ozone or the impurities contained in the air enter and accumulate in the ozone generator, which may affect the ozone generator's ozone production efficiency and even cause malfunction; therefore, it is now widely used. For the ozone water supply device used, how to effectively improve the service life of the ozone supply device is the primary problem for such products, and this creation is to propose solutions for the service life of the ozone supply device. [New content] The main purpose of this creation is to provide an ozone water supply device with a dry structure. The ozone water supply device is connected and installed on the outlet end of a faucet, and mainly comprises an air intake system and an ozone generator. , an ozone conveying pipe and a gas-water mixing pipe composed of a diameter-reducing throat, when the water supply of the faucet is turned on, the water can flow downward through the diameter-reducing throat of the gas-water mixing pipe, and generate a gas to the ozone conveying pipe. Negative pressure attraction can attract outside air to enter the ozone generator via the air intake system to generate ozone, and is transported by the ozone delivery pipe to the diameter reduction throat to be sucked into the gas water mixing pipe to be mixed with water; 4 • M331982

其係在進氣系統中設置一乾燥結構,該乾燥結構包含一室 間供可容置乾燥劑,並使該室間之底面對應連通至進氣系 統中一室間的上面,使外界空氣經由該進氣系統之入風口 進入臭氧產生器内部時,可藉該乾燥結構先有效濾除空氣 中之雜質及水份以避免水氣滲入’藉以在使用中能有效防 止或避免空氣中所含之水分或雜質進入並囤積在臭氧產生 器中致影響臭氧產生器之臭氧產生效率甚至造成故障之缺 點,相對地提昇臭氧產生器及供水裝置之使用壽命。 【實施方式】 為使本創作更加明確詳實,茲列舉較佳實施例並配合 下列圖示,將本創作之結構及其技術特徵詳述如後: 睛參考圖1〜圖6所示,本創作具聲控開關之臭氧水 供水衮置1 ,該臭氧水供水裝置1係連接裝設在一水龍頭 之出口端上使用,主要包含一外殼10、一進氣系統20、一 臭氧產生為30、一臭氧輸送管40及一由一徑縮喉部構成之 氣水,合管50,而進氣系統20、一臭氧產生器30及一臭氧 輸送㈣或其部分可容置在外殼1〇内,藉以形成一美觀且 易組裝之組合體;又臭氧水供水裝置1係利用導線80以外 接電源使用如圖7财或利㈣池#作電源(圖未示); 該導線ϋΐ末端上可設一插頭以先插接至-變壓器(圖未 不)上再連接至適内電源插座。 進氣系統20包含一室間21、一势 22,其中’在進氣系統20中之一二如及?路 221 ;當打開水龍頭供水時。路可_:逆止閥 火可經由氣水混合管50之徑 5 .M331982 縮喉部53向下沖流(如圖6箭頭B所示),並對臭氧輸送 管40產生一負壓吸引作用,可吸引外界空氣經由進氣系統 20之入風口 21a進入室間21内,再經過管路22進入臭氧產 生器30 (如箭頭A所示)而藉以產生臭氧,並由臭氧輸送 管40輸通至該徑縮喉部53以吸入氣水混合管50内以與水混 合。 臭氧產生器30係一可產生臭氧的裝置,由於可產生臭 氧的裝置或技術係為習知技術,包括利用尖端放電臭氧產 生方式或利用紫外燈管臭氧產生方式等,故於此不贅述臭 氧產生器30的内部詳細結構;而該臭氧產生器30所產生之 臭氧係藉一臭氧輸送管40連通至氣水混合管50之徑縮喉部 53,使臭氧可由該徑縮喉部53處吸入氣水混合管50内,又 該臭氧輸送管40上可設置一逆止閥41,藉以防止氣水混合 管50内水倒流進入臭氧產生器30内。 氣水混合管50係一頭尾管徑漸大中間管徑小而如一沙 漏狀之管體,包括一進水段51、一出水段52及介於進、出 水段51、52之間一徑縮喉部53,其中,進水段51係套設在 水龍頭之出口端上連結成一體,使水由出口端直接流入氣 水混合管50之進水段51内。 其係在進氣系統20中之一管路22上設置一聲控開關23 如圖3所示,該聲控開關23係利用空氣吸進並行經進氣系 統20之管路22時所產生之摩擦聲或風切聲來啟動開關,並 藉電子線路24同步啟動臭氧產生器30開始運轉以產生臭 M331982 又,當進氣系統20之管路22上設有一逆止閥221時, 可將該聲控開關23設置在逆止閥221中,使該聲控開關23 仍可利用空氣吸進並行經進氣系統2〇之管路22上之逆止闕 221時所產生之摩擦聲或風切聲來啟動開關,並藉電子線 路24同步啟動臭氧產生器30開始運轉以產生臭氧如圖2、 4所示。 又,可在臭氧水供水裝置1上以電子線路連接設置一 LE:D指示燈74用以顯示臭氧產生器30之運轉或停止狀態。 本創作之主要特徵在於··在進氣系統2〇中設置一乾燥 結構60,使外界空氣(如箭頭a所示)經由進氣系統20之 入風口 21a進入乾燥結構60在進入臭氧產生器3〇内部時, 可藉該乾燥結構60先有效濾除空氣中之雜質及水份並避免 水份滲入,藉以防止並避免空氣中所含之水分或雜質直接 進入並囤積在臭氧產生器30中,藉以保護臭氧產生器3〇而 提昇臭氧水供水裝置1之使用功效及壽命。 乾燥結構60主要包含一室間61,該室間61之底面係對 應連通至進氣系統2〇之室間21的上面,該室間61之内部供 容置乾燥劑62,該乾燥劑62可由複數個粒狀顆粒構成,其 係利用吸水性良好之材質作成而具有良好吸水性,如包括 能吸取空氣中帶有油氣之水份之乾燥材質,而其生產製造 技術或吸水性係為習知技術,故在此不另加詳述。 又,該乾燥結構60之室間61與進氣系統2〇之室間21之 間可進一步設置一空間部25,該空間部25内可塞置一過濾 材63,藉以使空氣中之雜質、異物由室間21進入室間61之 7 M331982 前先行經過一過濾程序。 又,該乾燥結構60之室間61之上面可進一步設置一空 ,部61a,該空間部61a内可塞置一過濾材63 ;藉以防止 室間61内空氣中之雜質、異物或乾燥劑62使用—段時間後 所產生之細狀物進入臭氧產生器内。 又 ,該過濾、材63之形狀不拘,可為單片式濾材或多片 式濾材如圖5所示。The utility model is provided with a dry structure in the air intake system, the drying structure comprises a chamber for accommodating the desiccant, and the bottom surface of the chamber is correspondingly connected to the upper part of the air intake system, so that the outside air is passed through When the air inlet of the air intake system enters the interior of the ozone generator, the dry structure can effectively filter out impurities and moisture in the air to prevent water and gas from infiltrating, so that the air contained therein can be effectively prevented or avoided. Moisture or impurities entering and accumulating in the ozone generator cause the ozone generating efficiency of the ozone generator to even cause faults, and relatively increase the service life of the ozone generator and the water supply device. [Embodiment] In order to make the present invention more clear and detailed, the preferred embodiment is illustrated with the following illustrations, and the structure and technical features of the present invention are detailed as follows: The eye is shown in FIG. 1 to FIG. An ozone water supply device 1 with a voice-activated switch, the ozone water supply device 1 is connected and installed on an outlet end of a faucet, and mainly comprises a casing 10, an air intake system 20, an ozone generation 30, and an ozone The conveying pipe 40 and a gas water composed of a diameter reducing pipe are combined with the pipe 50, and the intake system 20, an ozone generator 30 and an ozone conveying device (4) or a part thereof can be accommodated in the casing 1 to form An aesthetically pleasing and easy to assemble assembly; and the ozone water supply device 1 is powered by an external power source of the wire 80 as shown in Fig. 7 or the battery (not shown); a plug can be arranged at the end of the wire Plug in the - transformer (not shown) and connect to the appropriate power outlet. The intake system 20 includes a chamber 21, a potential 22, wherein 'one of the intake systems 20 is the same? Road 221; when the faucet is turned on. ROAD _: The check valve fire can flow downward through the diameter of the gas-water mixing pipe 50. M331982 The throat portion 53 flows downward (as indicated by arrow B in Fig. 6), and generates a vacuum suction effect on the ozone conveying pipe 40. The outside air can be sucked into the chamber 21 via the air inlet 21a of the air intake system 20, and then enters the ozone generator 30 (shown by the arrow A) through the pipeline 22 to generate ozone, and is transmitted by the ozone duct 40. The squeezing throat 53 is sucked into the gas-water mixing pipe 50 to be mixed with water. The ozone generator 30 is a device capable of generating ozone. Since the device or technology capable of generating ozone is a conventional technique, including the use of a tip discharge ozone generation method or an ultraviolet lamp ozone generation method, the ozone generation is not described herein. The internal structure of the ozone generator 30 is connected to the diameter reduction throat 53 of the gas-water mixing pipe 50 by an ozone delivery pipe 40, so that ozone can be sucked into the gas by the diameter reduction throat 53 A check valve 41 may be disposed in the water mixing pipe 50 to prevent the water in the gas-water mixing pipe 50 from flowing back into the ozone generator 30. The gas-water mixing pipe 50 is a tube having a small diameter and a small diameter in the middle, such as an hourglass-shaped pipe body, including a water inlet section 51, a water outlet section 52, and a diameter reduction between the inlet and outlet sections 51 and 52. The throat portion 53, wherein the water inlet portion 51 is sleeved on the outlet end of the faucet to be integrated, so that the water directly flows into the water inlet portion 51 of the gas-water mixing pipe 50 from the outlet end. It is provided with a voice control switch 23 on one of the pipelines 22 of the air intake system 20. As shown in FIG. 3, the voice control switch 23 is used to absorb the friction sound generated by the air passing through the pipeline 22 of the air intake system 20 in parallel. Or the wind cuts to activate the switch, and the ozone generator 30 starts to operate synchronously by the electronic circuit 24 to generate the odor M331982. When the check valve 221 is provided on the pipeline 22 of the intake system 20, the voice switch can be 23 is disposed in the check valve 221, so that the voice-activated switch 23 can still use the air to suck in the friction sound or the wind-cut sound generated by the back-stop 阙221 on the pipeline 22 of the intake system 2〇 to start the switch. And the ozone generator 30 is started synchronously by the electronic circuit 24 to start operation to generate ozone as shown in Figs. Further, an LE:D indicator lamp 74 may be provided on the ozone water supply device 1 by electronic circuit connection for displaying the operation or stop state of the ozone generator 30. The main feature of the present invention is that a dry structure 60 is provided in the intake system 2 to allow outside air (as indicated by arrow a) to enter the dry structure 60 via the air inlet 21a of the intake system 20 to enter the ozone generator 3 When the interior of the crucible is used, the dry structure 60 can effectively filter out impurities and moisture in the air and prevent moisture from infiltrating, thereby preventing and avoiding direct entry and accumulation of moisture or impurities contained in the air in the ozone generator 30. In order to protect the ozone generator 3, the use efficiency and life of the ozone water supply device 1 are improved. The drying structure 60 mainly comprises a chamber 61. The bottom surface of the chamber 61 corresponds to the upper surface of the chamber 21 connected to the air intake system 2, and the interior of the chamber 61 is provided with a desiccant 62. The desiccant 62 can be It is composed of a plurality of granular particles, which are made of a material having good water absorption and have good water absorption, such as a dry material capable of absorbing water with oil and gas in the air, and its manufacturing technology or water absorption is conventional. Technology, so it is not detailed here. Further, a space portion 25 may be further disposed between the inter-chamber 61 of the drying structure 60 and the inter-chamber 21 of the air intake system 2, and a filter 63 may be inserted into the space portion 25 to thereby make impurities in the air, The foreign matter enters the inter-chamber 21 between the chambers 21 and 7 before the M331982 through a filtering procedure. Further, an upper portion 61a may be disposed on the upper surface of the chamber 61 of the drying structure 60. A filter 63 may be inserted into the space portion 61a to prevent impurities, foreign matter or desiccant 62 in the air in the chamber 61 from being used. - The fines produced after a period of time enter the ozone generator. Further, the shape of the filter material 63 is not limited, and it may be a single-piece filter material or a multi-piece filter material as shown in Fig. 5.

又,該乾燥結構60進-步可設置一烘乾結構7〇,該供 乾結構70包含-電熱體7卜—電子線路鼓—按㈣,其 ^錢熱體71可埋設在賴結構⑼之乾燥脈巾,也就 疋。又置在至間61中’藉以直接面對乾燥細2而提高洪乾效 率^該電熱體71可藉電子線路72料通過隔板之開孔77 以與安裝在外部之按鈕73連接,供使用者可按壓該按鈕Μ 以啟動電熱體71開始增溫,用以可對室間61中上空氣與乾 加刈62加熱以進行烘乾與除濕作業,藉以進一步使乾燥劑 6=此保持乾料具妓狀吸水雜。又該電熱體^之材 貝不限制可為陶瓷、電熱絲或其他材質。 ^j烘乾結構7〇進一步可包含一空氣泵75,該空氣泵75 ^、s路76與乾燥結構6〇之室間以對應連接,並可供將烘 乾時累積在乾燥結構⑼(室間61)内之祕或廢氣抽離並 向外排出(如箭頭C所示)。 W亥,乾結構70係設定在臭氧產生器30未運轉時才能啟 =,也就是該空氣泵75可設計與烘乾結構7〇之電熱體以同 乂啟動也就是可利用同一按紐73以同步啟動電熱體71及 8 • M331982 空氣泵75,並同時切斷臭氧產生器3〇之電源;又可設置〆 具可設定自動烘乾時間或依溼度狀況可自動啟動與停止之 控制器(圖未示),以準確控制烘乾結構7〇之烘乾效果, 或利用按壓按鈕73以復歸方式使烘乾結構7〇停止運轉;由 於上述之控制可藉電子技術達成,故在此不詳述其電路設 計。 又,可在臭氧水供水裝置丨上以電子線路連接設置一 LED指示燈74用以顯示烘乾結構70之運轉或停止狀態。 • 藉上述結構,本創作一種臭氧水供水裝置1 ,利用進 氣系統20上所β又置之乾燥結構β〇,使外界空氣經由進氣系 統20進入臭氧產生斋30内部時,可藉該乾燥結構6〇先濾除 空氣中之雜質及水份,藉以防止並避免空氣中所含之水分 或雜質進入臭氧產生器30中,藉以保護臭氧產生器3〇而提 昇臭氧水供水裝置1之使用功效及壽命。 以上所述僅為本創作的較佳實施例,對本創作而言僅 是説明性的,而非限制性的;本專業技術人員理解,在本 • 創作權利要求所限定的精神和範圍内可對其進行許多改 變,修改,甚至等效變更,但都將落入本創作的保護範圍 内。 【圖式簡單說明】 圖1係本創作一實施例之外觀立體圖。 圖2係圖1之立體分解示意圖。 圖3係聲控裝置在管路上之正面剖視圖。 圖4係圖1之正面透視示意圖。 ι M331982 圖5係圖1與入風口蓋分離之後面透視圖。 圖6係本創作裝設在水龍頭出口端上之正面示意圖。 【主要元件符號說明】 臭氧水供水裝置1 外殼10 進氣系統20 室間21 入風口 21a 管路22 逆止閥221 聲控裝置23 電子線路24 空間部25 臭氧產生器30 臭氧輸送管40 逆止閥41 氣水混合管50 進水段51 出水段52 徑縮喉部53 乾燥結構60 室間61 空間部61a 乾燥劑62 過濾網63 烘乾結構70 電熱體71 電子線路72 按鈕73 LED指示燈74 空氣泵75 管路76 開孔77 導線80Moreover, the drying structure 60 can be further provided with a drying structure 7, which comprises an electric heating body 7 - an electronic circuit drum - according to (4), and the hot body 71 can be buried in the Lai structure (9). Dry the veins, it will be awkward. It is placed in the middle 61 to improve the flooding efficiency by directly facing the dry fine 2. The electric heater 71 can be connected to the externally mounted button 73 by the electronic circuit 72 through the opening 77 of the partition for use. The button Μ can be pressed to start the heating body 71 to start warming, so that the upper air in the chamber 61 and the dry twisting 62 can be heated for drying and dehumidifying operations, thereby further allowing the desiccant 6 to maintain the dry material. It has a watery mixed water. Moreover, the material of the electric heating body is not limited to ceramic, electric heating wire or other materials. The ^j drying structure 7 can further comprise an air pump 75, the air pump 75^, the s-way 76 and the drying structure 6〇 are connected in a corresponding manner, and can be accumulated in the dry structure (9) when drying (room) The secret in the room 61) or the exhaust gas is drawn away and discharged outward (as indicated by arrow C). W Hai, the dry structure 70 is set to be activated when the ozone generator 30 is not in operation, that is, the air pump 75 can be designed and dried with the electric heating body of the drying structure, that is, the same button 73 can be used. Synchronously start the electric heaters 71 and 8 • M331982 air pump 75, and cut off the power of the ozone generator 3〇 at the same time; also set the cooker to set the automatic drying time or the controller that can automatically start and stop according to the humidity condition (figure (not shown), in order to accurately control the drying effect of the drying structure 7 ,, or use the push button 73 to reset the drying structure 7 以 by the reset button; since the above control can be achieved by electronic technology, it will not be detailed here. Its circuit design. Further, an LED indicator 74 may be provided on the ozone water supply unit 以 by electronic connection to indicate the operation or stop state of the drying structure 70. • With the above structure, an ozone water supply device 1 is created by using the dry structure β〇 on the intake system 20 to allow outside air to enter the ozone through the intake system 20 to generate the interior 30. Structure 6 first filters out impurities and moisture in the air to prevent and prevent moisture or impurities contained in the air from entering the ozone generator 30, thereby protecting the ozone generator 3 and improving the use efficiency of the ozone water supply device 1. And life. The above description is only a preferred embodiment of the present invention, and is intended to be illustrative only and not limiting; those skilled in the art understand that the spirit and scope of the present invention can be Many changes, modifications, and even equivalent changes are made, but they fall within the scope of this creation. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an external perspective view of an embodiment of the present invention. 2 is a perspective exploded view of FIG. 1. Figure 3 is a front cross-sectional view of the voice control device on the pipeline. Figure 4 is a front perspective view of Figure 1. ι M331982 Fig. 5 is a perspective view of Fig. 1 after separation from the inlet flap. Figure 6 is a front elevational view of the present invention mounted on the outlet end of the faucet. [Main component symbol description] Ozone water supply device 1 Enclosure 10 Intake system 20 Inter-chamber 21 Air inlet 21a Line 22 Check valve 221 Voice control device 23 Electronic circuit 24 Space unit 25 Ozone generator 30 Ozone delivery pipe 40 Check valve 41 Gas-water mixing pipe 50 Inlet section 51 Outlet section 52 Diameter throat 53 Drying structure 60 Chamber 61 Space part 61a Desiccant 62 Filter 63 Drying structure 70 Electric body 71 Electronic line 72 Button 73 LED indicator 74 Air Pump 75 line 76 opening 77 wire 80

Claims (1)

M331982 九、申請專利範圍·· 1.—種具乾燥結構之臭氧水供水裝置,該臭氧水供水裴少 連接裝設在一水龍頭之出口端上使用,主要包含一進,係 統、-臭氧產生器、-臭氧輸送管及—由—徑縮喉部= 之氣水混合管,當打開水龍頭供水時,水可經由氣水混人 管之徑縮喉部向下沖流,並對臭氧輸送管產生—負壓^ 作用’可吸引外界空氣經由進氣系統進入臭氧產生器而藉 以ί生ΐ氧,並由臭氧輸送管輸通至該徑縮喉部以吸入^ 尺=:g内以與水混合;其特徵在於:在進氣系統中設置 $乾=、、、。構,包含一室間,該室間之底面係對應連通至進 ^系4*之至間的上面’該室間之内部供容置乾燥劑,該乾 及水性良好之材質作成之複數個粒狀顆粒所構 成,使外界空氣經由該進氣系統之入風 口進入乾燥結構而 與其内部之乾燥劑相互接觸,並吸附空氣中之水份藉以防 止空氣中所含之水分進入臭氧產生器中。 2·如申請專利範圍第1項所述具乾燥結構之臭氧水供水裝 置’其進一步可在該乾燥結構之室間與進氣系統之室間之 間設置一空間部以供塞置一過濾材。 3·如申請專利範圍第1項所述具乾燥結構之臭氧水供水裝 置,其進一步可在該乾燥結構之室間之上面設置一空間部 以供基置一過濾材。 4·如申請專利範圍第丨項所述具乾燥結構之臭氧水供水裝 置,其中該乾燥劑包括可過濾及吸取空氣中帶有油氣之水 份之乾燥材質。 11M331982 IX. Scope of application for patents·· 1. A ozone water supply device with a dry structure. The ozone water supply is connected to the outlet end of a faucet, mainly including a feed, system, and ozone generator. - Ozone delivery pipe and - gas-water mixing pipe of - diameter reduction throat = when the water supply is turned on, the water can flow down through the diameter of the gas-water mixing pipe and the ozone pipe - Negative pressure ^ action' can attract outside air to enter the ozone generator via the air intake system, and then pass through the ozone transfer pipe to the diameter reduction throat to inhale the ruler =: g to mix with water It is characterized in that: dry =, ,, and are set in the intake system. The structure comprises a chamber, and the bottom surface of the chamber is connected to the upper portion of the chamber 4*. The interior of the chamber is provided with a desiccant, and the dry and water-based materials are made into a plurality of grains. The granules are configured such that outside air enters the dry structure through the air inlet of the air intake system to contact the desiccant inside thereof, and adsorbs moisture in the air to prevent moisture contained in the air from entering the ozone generator. 2. The ozone water supply device having a dry structure according to claim 1, wherein a space portion is further disposed between the chamber of the drying structure and the chamber of the air intake system for plugging a filter material . 3. The ozone water supply device having a dry structure according to claim 1, wherein a space portion is further disposed on the space between the chambers of the dry structure for providing a filter material. 4. The ozone water supply device having a dry structure according to the scope of the invention, wherein the desiccant comprises a dry material capable of filtering and absorbing water having oil and gas in the air. 11
TW96221409U 2007-12-14 2007-12-14 Ozone water supplying apparatus containing drying structure TWM331982U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI563521B (en) * 2015-12-31 2016-12-21 Fortune Electric Co Ltd

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI563521B (en) * 2015-12-31 2016-12-21 Fortune Electric Co Ltd

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