M310215 八、創作詳細說明: 【新型所屬之技術領域】 本創作係有關一種臭氧水產生裝置的改良結構,尤其 是指一種能產生高濃度臭氧水,又可降低其所需的耗電電 壓,以及減少氫氣的排放量的臭氧水產生裝置;其主要係 於臭氧產生器接近陰極板的輸入口係接自該氣水混合器之 出水口所送出的高氧物質。 【先前技術】 按,習知臭氧水產生裝置之臭氧產生器係利用水電解 產生臭氧方式乃於陽極(anode )通入水並透過額定電壓方 得以於陽極產生高濃度之臭氧,如第3圖所示,其主要構 造包含由陰極水箱31 (純水水箱)、陽極水箱32 (函陰離子 較高之水箱)、臭氧產生器33、氣水混合器34、氣水分離器 35及單向閥36所組成;該臭氧產生器33係在一容器中間分 別設有一陽極板331及一陰極板332,而在該二電極板中間 設有一含陰陽極之高分子膜334,此二電極板將該容器區分 為二個容水空間333,且各設有一輸入口 335、336及一輸出 口 337、338 ;該陰極水箱31利用管線經一單向閥36與陽極 水箱32相接,該陰極水箱31與接近陰極板332的輸入口 336 連接,提供該陰極板一側之容水空間333所需的水;該陽極 水箱32與接近陽極板331的輸入口 335連接,提供該陽極板 一側之容水空間333所需的水;以及該臭氧產生器33在接近 陰極板332的輸出口 338連接回陰極水箱31,在接近陽極板 331的輸出口 337連接回陽極水箱32,再由陽極水箱32上端 的排氣口 321連接至氣水混合器34之後再串接到氣水分離 M310215 器35,最後由該氣水分離器35導出所產生的臭氧水;又, 前述之陰極水箱31與氣水混合器34上端各設有外來的入水 管37以提供該裝置所需的水。M310215 VIII. Description of the creation: [New technical field] This creation is about an improved structure of an ozone water generating device, especially one that can generate high concentration of ozone water and reduce the required power consumption voltage, and An ozone water generating device for reducing the amount of hydrogen gas discharged; the main function is that the input port of the ozone generator close to the cathode plate is connected to the high oxygen substance sent from the water outlet of the gas water mixer. [Prior Art] According to the conventional ozone generator of the ozone water generating device, the ozone is generated by water electrolysis. The anode is introduced into the water and the rated voltage is applied to generate a high concentration of ozone at the anode, as shown in FIG. The main structure includes a cathode water tank 31 (pure water tank), an anode water tank 32 (water tank with a higher anion), an ozone generator 33, a gas-water mixer 34, a gas-water separator 35, and a check valve 36. The ozone generator 33 is provided with an anode plate 331 and a cathode plate 332 respectively in the middle of a container, and a polymer film 334 containing a cathode and an anode is disposed in the middle of the two electrode plates, and the two electrode plates distinguish the container The two water-receiving spaces 333 are respectively provided with an input port 335, 336 and an output port 337, 338. The cathode water tank 31 is connected to the anode water tank 32 via a check valve 36, and the cathode water tank 31 is close to The input port 336 of the cathode plate 332 is connected to provide water required for the water receiving space 333 on one side of the cathode plate; the anode water tank 32 is connected to the input port 335 of the anode plate 331 to provide a water receiving space on the side of the anode plate 333 The required water; and the ozone generator 33 is connected back to the cathode water tank 31 at the output port 338 of the cathode plate 332, connected to the anode water tank 32 at the output port 337 close to the anode plate 331, and then the exhaust port at the upper end of the anode water tank 32. 321 is connected to the gas-water mixer 34 and then connected to the gas-water separation M310215, and finally the ozone water generated by the gas-water separator 35 is discharged. Further, the cathode water tank 31 and the upper end of the gas-water mixer 34 are respectively An external inlet pipe 37 is provided to provide the water required for the unit.
如上述知構造組合使用時,當於陰極水箱31與陽極水 箱32内注入一般的自來水或純水,並使臭氧產生器内的容 水空間333充滿水後,經該臭氧產生器33電解後,在接近陽 極板331—側之水將於含陰陽極高分子膜之陽極進行 HA—l/3〇3+2H++2e飞解反應,其中&經管線337進入陽極水 箱32後進入氣水混合器34與由外界提供的水混合成含臭氧 之水(〇3+H2〇),且其中未能完全溶入水中的臭氧(〇3)將經氣 X刀離器35之工氣排氣口 351排入大氣中,而臭氧水則可由 出水口 352排出以供使用者;另外,於陽極板331 一側所產 生的2H+與2e_則分別透過高分子膜334游離到陰極板3犯處 並結合成H2由311排出。 如上述之習知構造雖可比較傳統以高電壓方式解離空 氣中的氧氣呈氧原子(〇”2())再使其與氧氣結合呈臭氧 (〇+〇2—〇3, 〇+N24N〇2)的方式更有效率且無N〇2之污染, 然其額定電壓通常需高達㈣上方得以有適當的臭氧水濃 度進行利用。高電壓之輸人除了需增加能源的輸入外,過 程中亦會使純產生器33發熱而使臭氧水濃度降低(臭氧 解度隨水溫度增高而下降);再者,長期在高溫狀 怨下運作亦將降低其中含陰陽極高分子膜334的壽命;以及 该一習知臭氧水產生ϋ33的臭氧製造過程巾,在其近陰極 =-:二輸出口 338會產生大量的氫氣㈤經陰極水 相排入大氣中,導致在密閉空間内的氫氣濃度提升,恐 6 M310215 ’有引爆之虞。是以,對上述習知臭氧產生器之構造實有再 ,研究改良的必要。 【新型内容】 本案創作人有鑑於上述習知臭氧水產生裝置之臭氧產 生器構造在使用上的缺失;爰精心研究,並積個人從事該 產品之設計與製造的多年經驗,終研發設計出一種嶄新的 「臭氧水產生裝置的改良結構」。 本創作主要目的在提供一種臭氧水產生裝置的改良結 構,其能有效產生高濃度臭氧水,又可降低其所需的耗電 電壓’以及減少氫氣的排放量者。 為達上述之目的,本創作之臭氧水產生裝置的改良結 構,主要構造至少由一供水裝置、一臭氧產生器及一氣水 混合器所組成;該臭氧產生器係在一容器中間分設有一陽 極板及一陰極板,而在該二電極板中間為含陰陽極之高分 子膜,藉該二電極板將該容器區分為有二個容水空間,該 一谷水空間的上下兩端各設有一輸入口及一輸出口·,該供 水裂置係用來提供該臭氧產生器與氣水混合器所需的水, 而該氣水混合器係串接於臭氧產生器接近陽極板上端的輸 出口;其特徵在:該臭氧產生器在其接近陽極板的輸入口 係接自該供水裝置所提供的水,而在其接近陰極板的輸入 口係接自該氣水混合器之出水口所送出的高氡物質者。 據而,本創作使用時,除在開機初期之外,其係在七亥 臭氧產生器的陰極板(cathode)—側的輸入口加;;高氧: 質(如:氧氣、臭氧、臭氧水)的方式,使該臭氧產生哭 的陽極板(anode)—侧得以低電壓輸入亦可有相同的臭口氧 M310215 ,水產生效果,且其溫度也不易上升(減低對冷卻系統的依 賴),符合高效率長效性之臭氧水產生目的;又如上述之 構造,本創作以低電壓輸入即可獲得相同效果係緣自於陰 極板中電解時所產生的氫離子(r)與氧氣結合(2Η++1/2 〇2+2e—Η2〇)所須的能量低於(2H++2e—η2);再者,本創 作且可降低在陰極板一侧產生之氳氣的排放,俾使本創作 之裝置在運轉過程中無安全之虞,也不會有氫氣外洩與空 氣發生***的情事,進而具有高效率、長效性、安全性的 •特點。 【實施方式】 為使貴審查委員對本創作之構造、裝置及其特徵有更 進-步的認識與了解’兹舉其可行實施例並配合圖式詳細 說明如下: 明參閱第1及第2圖所示,本創作「臭氧水產生裝置 的改良結構」其主要構造至少由一供水裝置u、一臭氧產When the above-described structure is used in combination, when tap water or pure water is injected into the cathode water tank 31 and the anode water tank 32, and the water receiving space 333 in the ozone generator is filled with water, after being electrolyzed by the ozone generator 33, The water near the anode plate 331 side will carry out the HA-1/3〇3+2H++2e flying reaction at the anode containing the anode and cathode polymer film, wherein & enters the anode water tank 32 via the line 337 and enters the gas water. The mixer 34 is mixed with water supplied from the outside to form ozone-containing water (〇3+H2〇), and ozone (〇3) in which the water is not completely dissolved in the water is exhausted by the gas of the gas X knife separator 35. The mouth 351 is discharged into the atmosphere, and the ozone water is discharged from the water outlet 352 for the user; in addition, 2H+ and 2e_ generated on the anode plate 331 side are respectively transmitted through the polymer film 334 to the cathode plate 3 And combined into H2 discharged by 311. As is the case with the conventional structure described above, the oxygen in the air is dissociated from the air by an oxygen atom (〇"2()) and then combined with oxygen to form ozone (〇+〇2—〇3, 〇+N24N〇 2) The method is more efficient and has no pollution of N〇2, but its rated voltage usually needs to be up to (4) to be used with appropriate ozone water concentration. In addition to the need to increase the input of energy, the input of high voltage is also in the process. The pure generator 33 is heated to lower the ozone water concentration (the degree of ozone depletion decreases as the water temperature increases); in addition, long-term operation under high temperature will also reduce the life of the anode-containing polymer film 334 therein; The ozone production process towel of the conventional ozone water generating ϋ33 generates a large amount of hydrogen (5) in the near cathode=-:two outlet port 338, and is discharged into the atmosphere through the cathode aqueous phase, thereby causing an increase in the concentration of hydrogen in the sealed space. Fear 6 M310215 'There is a detonation. Therefore, it is necessary to study the structure of the above-mentioned conventional ozone generator. [New content] The creator of this case has the ozone generation of the above-mentioned conventional ozone water generating device. Lack of structure in the use of; Yuan meticulous research, and individuals engaged in product design and the product of years of experience in manufacturing, research and development of the final design a new "ozone water to produce an improved structure of the device." The main purpose of this creation is to provide an improved structure of an ozone water generating device which can efficiently produce high concentration ozone water while reducing the required power consumption voltage and reducing hydrogen emissions. For the above purposes, the improved structure of the ozone water generating device of the present invention is mainly composed of at least one water supply device, an ozone generator and a gas water mixer; the ozone generator is provided with an anode in the middle of a container. a plate and a cathode plate, and a polymer film containing a cathode and an anode in the middle of the two electrode plates, wherein the container is divided into two water-receiving spaces by the two electrode plates, and one upper and lower ends of the grain water space are respectively provided with one An input port and an output port for supplying water required for the ozone generator and the gas-water mixer, and the gas-water mixer is connected in series to the output port of the ozone generator near the anode end The ozone generator is connected to the water supplied from the water supply device at an input port close to the anode plate, and is connected to the water outlet of the gas-water mixer at an inlet close to the cathode plate. Sorghum material. According to this, in addition to the initial stage of the start-up, it is added to the cathode-side input port of the Qihai ozone generator; high oxygen: quality (eg oxygen, ozone, ozone water) The way, the ozone produces a crying anode plate (anode) - the side can be low voltage input can also have the same odor oxygen M310215, water production effect, and its temperature is not easy to rise (reduce the dependence on the cooling system), It meets the purpose of high efficiency and long-lasting ozone water generation; as well as the above structure, the creation of the same effect at low voltage input is due to the hydrogen ion (r) generated by electrolysis in the cathode plate combined with oxygen ( 2Η++1/2 〇2+2e—Η2〇) The energy required is lower than (2H++2e-η2); in addition, this creation can reduce the emission of helium generated on the side of the cathode plate, 俾The device of this creation has no safety during operation, and there is no hydrogen leakage and air explosion, and thus has the characteristics of high efficiency, long-term efficiency and safety. [Embodiment] In order to enable the reviewing committee to have a more advanced understanding and understanding of the structure, device and features of the creation, the following is a detailed description of the possible embodiments and the following drawings: See Figures 1 and 2 for details. As shown, the creation of the "improved structure of the ozone water generating device" is mainly composed of at least one water supply device u and one ozone.
生二2及一氣水混合器13所組成;該臭氧產生器12係在 -容器中間分設有-陽極板121及—陰極板122,而在該 ::,板12卜122中間為一含陰陽極之高分子膜124,藉 该%極板121及陰極板122將該容器區分為二個容水空間 123,並在該二容水空間123的上下兩端各設有一輸入口 ^、自⑵及—輸出口 127、128 ;該供水裝置11係用來提 氧產生器12與氣水混合器13運作時所需的水(其 :為一,箱,或取自自來水管)’而該氣水混合器13係串 蔣Γ臭氧產生^ 12接近陽極板121上端的輸出σ 127,可 將由該—輸出口所產生的臭氧㈤與供水裝置U所提供 8 M310215 -的水(HA ),在該氣水混合器丨3中充分混合而產生所要的 臭氧水(〇3+H2〇)者。 如上述的構造,其特徵在:該臭氧產生器12在其接近 陽極板121的輸入口 125端係接自該供水裝置丨丨所提供的 水,而在其接近陰極板122的輸入口 126係接自該氣水混 合器13之出水口 131所送出的高氧物質者。 據上述裝置組合時,除在開機初期之外,本創作係在 該臭氧產生器12的陰極板122—侧的輸入口 126加入高氧物 鬱質(如:氧氣、臭氧、臭氧水)的方式,使該臭氧產生器 12的陽極板121得以低電壓輸入亦可有相同的臭氧水產生 效果如第2圖所示),且其溫度也不易上升,可減低對 冷卻系統的依賴,符合高效率長效性之臭氧水產生目的; 又如上述之構造,本創作以低電壓輸入即可獲得相同效果 係緣自於陰極板122中電解時所產生的氫離子(r)與由輸 入口 126加入高氧物質的氧氣結合(2H++1/2 〇2+2e_—汛〇) φ所須之能量低於(2H++2e_—H2);再者,本創作在陰極板122 :侧的電解反應係補充大量的氧氣與由陽極端游離過來的 氫氣結合而還原為水(此處的水可送回供水裝置u内或直 接排放),以降低在陰極板122 一侧所產生氣 俾使本創作之裝置在運轉過程中無安全之虞==氣 外Λ與空氣發生***的情事,而具有高效率、長效性、安 全性之特點。 如以上所揭露之實施例的形狀、構造,係本創作諸多 可行實施例中的一個實施例,故本創作的申請專利範圍並 不局限於此,凡在不偏離本創作構思的條件下,各元件可 M310215 用所屬技術領域人員瞭解的相似或等同元件來替換。 j宗上所述,本創作「臭氧水產生裝置的改良結構」確 只月色達到具有高效率、長效性、安 之構造在提出專财請前未見於職又,本案 案之構造能符合新型專利要件,爰依使用;是以本 去鈥出專利申請。 M310215 【圖式簡單說明】 第1圖爲本創作臭氧水產生裝置的示意圖。 第2圖爲本創作中的臭氧產生器的電解反應示意圖 第3圖為習知臭氧水產生裝置的示意圖。The second generator 2 is composed of a gas-water mixer 13; the ozone generator 12 is provided with an anode plate 121 and a cathode plate 122 in the middle of the container, and a yin-yang is included in the middle of the plate: The polymer film 124 is divided into two water-receiving spaces 123 by the % electrode plate 121 and the cathode plate 122, and an input port is provided at each of the upper and lower ends of the two water-receiving spaces 123, and (2) And the output ports 127, 128; the water supply device 11 is used to raise the water required by the oxygen generator 12 and the gas-water mixer 13 (the: one, the box, or taken from the water pipe) The water mixer 13 is connected to the upper end of the anode plate 121 by the output σ 127, and the ozone (5) generated by the output port and the water (HA) provided by the water supply device U are 8 M310215. The gas-water mixer 丨3 is thoroughly mixed to produce the desired ozone water (〇3+H2〇). The above configuration is characterized in that the ozone generator 12 is connected to the water supplied from the water supply device at the end of the input port 125 of the anode plate 121, and is close to the input port 126 of the cathode plate 122. The oxygen-containing substance sent from the water outlet 131 of the gas-water mixer 13 is supplied. According to the above device combination, in addition to the initial stage of startup, the present invention adds a high oxygen content (such as oxygen, ozone, ozone water) to the input port 126 of the cathode plate 122 side of the ozone generator 12. The anode plate 121 of the ozone generator 12 can be input at a low voltage or the same ozone water generation effect as shown in FIG. 2, and the temperature thereof is not easily increased, thereby reducing the dependence on the cooling system and conforming to high efficiency. The purpose of the long-acting ozone water generation; as in the above configuration, the creation of the same effect at a low voltage is obtained by the hydrogen ions (r) generated by the electrolysis in the cathode plate 122 and added by the input port 126. Oxygen bonding of high oxygen species (2H++1/2 〇2+2e_-汛〇) φ requires less energy than (2H++2e_-H2); further, the creation of electrolysis on the cathode plate 122: side The reaction system is supplemented with a large amount of oxygen combined with hydrogen gas which is freed from the anode end to be reduced to water (the water here can be sent back to the water supply device u or directly discharged) to reduce the gas generated on the side of the cathode plate 122. The device being created has no safety during operation. == The air and the air explode, and it has the characteristics of high efficiency, long-term efficiency and safety. The shape and configuration of the embodiments disclosed above are one of the many possible embodiments of the present invention, and thus the scope of the patent application of the present invention is not limited thereto, and all without departing from the inventive concept, The component M310215 can be replaced with similar or equivalent components known to those skilled in the art. According to j, the creation of the "Ozone-based water-generating device's improved structure" is only a month of high-efficiency, long-lasting, and the structure of the security is not seen before the proposed special wealth. The structure of this case is in line with the new type. The patent requirements are used in accordance with the patent application; M310215 [Simple description of the diagram] Figure 1 is a schematic diagram of the creation of the ozone water generating device. Fig. 2 is a schematic view showing the electrolysis reaction of the ozone generator in the present invention. Fig. 3 is a schematic view showing a conventional ozone water generating device.
【主要元件符號說明】 供水裝置 11 氣水混合器 13 陰極板 122 高分子膜 124 輸出口 127、 128 陰極水箱 31 臭氧產生器 33 氣水分離器 35 入水管 37 陽極板 331 容水空間 333 輸入口 335、 336 空氣排氣口 351 臭氧產生器 12 陽極板 121 容水空間 123 輸入口 125、 126 出水口 131 陽極水箱 32 氣水混合器 34 單向閥 36 臭氧排氣口 321 陰極板 332 高分子膜 334 輸出口 337、 338 出水〇 352[Main component symbol description] Water supply device 11 Gas-water mixer 13 Cathode plate 122 Polymer film 124 Output port 127, 128 Cathode water tank 31 Ozone generator 33 Gas-water separator 35 Inlet pipe 37 Anode plate 331 Water-capacity space 333 Input port 335, 336 air vent 351 ozone generator 12 anode plate 121 water space 123 input port 125, 126 water outlet 131 anode water tank 32 gas water mixer 34 check valve 36 ozone exhaust port 321 cathode plate 332 polymer film 334 output port 337, 338 water outlet 352