M284447 八、新型說明: 【新型所屬之技術領域】 本創作侧於-種可將絲與自絲齡找奸,可達具有更 局氣液混合之溶解率,提高反應水之賴與料作用者。 【先前技術】 習用所知’藉由-種臭氧產生器,可以提供生成臭氧氣體,用來 消滅細菌、消毒、除臭功用非常卓著,本案創作人曾發明創作一種混 •合器,以-般之自來水與由一臭氧產生器(圖未示出)所送進來的臭氧 (03)同時通過舰合ϋ反應後,送出來的反應軸含有錄⑽,可 以用來進行清洗衣物、蔬果時,提供殺菌、消毒、去除農藥與臭味等 功效;惟,如果於自來柄含她高濃度之絲,就可吨高其殺菌 與消毒作用,實是一項福音。 【新型内容】 有鑑於,欲提高於液體内臭氧的濃度,關鍵在於可以利用壓力差 鲁原理所產生之真空現象可以增加液體對臭氧之吸附能力,乃研發出一 種可以製造出渦流現象以增加壓力,而提高壓力差以產生更佳之真空 吸附作用,提高氣、液混合之速度以及溶解率。 本創作一種氣液混合裝置,係為一具有一液體輸入部、一氣體輸 入部以及一氣、液混合輸出部之三通管體結構;其中 該液體輸入部係供一般自來水輸入之管道,其入口端之孔捏較 大,出口端之孔徑較小; 一渦輪,係設置於該液體輸入部内、介於其入口端與出口端之門, 4 M284447 其係具有若干之渴形葉片,於轉動時可產生渦流現象而有加壓作用 者; 該氣體輸人部係供臭氧氣體輸人之管道,其人口端之孔徑較大, 出口端之孔徑較小,形成一真空吸附區,其出口端並與該液體輸入部 之出口端相接連通者; 該氣、液混合輸出孔,其入口端之孔徑較小、出口端之孔徑較大, _該入口端並係接設於該氣體輸入部其真空吸附區之後端,供反應後具 有兩濃度臭氧含量之反應水輸出; 據此,以該反應水可提供快速分解殘留農藥、清潔劑以及殺菌、 除臭等功效。 【實施方式】 本創作一種氣液混合裝置(2〇),請參閱第一圖、第二圖與第三圖 所示,係為一具有一液體輸入部(21)、一氣體輸入部(23)以及一氣、 g 液混合輸出部(25)之三通管體結構;其中 該液體輸入部(21)係位於本創作混合裝置(2〇)三通管體之一端, 係供一般自來水w輸入之管道,其入口端(211)之孔徑較大,以該等 孔徑維持一段距離後往後拉長並進而連接其出孔端,其出口端(212) 之孔徑則明顯較小於該入口端(211)許多,使該液體輸入部(21)剖視 概呈一錐形狀者; 一渦輪(27),請參閱第四圖所示,係設置於該液體輸入部(21)内、 介於其入口端(211)與出口端(212)之間,以其所具有之若干渦形葉片 (271),於轉動時產生渦流現象,使由該液體輸入部(21)其入口端(211) 5 M284447 進入之自來水,經過該渦輪(27)產生渦流後,因速度減慢而增加壓 力,而在該液體輸入部(21)其入口端(211)與出口端(212)之間形成一 渦流加壓區(213)者; 該氣體輸入部(23)係供臭氧(03)氣體輸入之管道,而臭氧(〇3)氣 體之產生則是由一臭氧產生器(圖未示出)製成供應,因屬習用且非本 創作之主要特徵,故在此不予贅述;該氣體輸入部(23)係設於本創作 混合裝置之上方端部,且其孔徑明顯小於該液體輸入部(21)以及氣、 _液混合輸出部(25)許多,而其入口端(231)之孔徑較大,出口端(232) 之孔瓜較小,g臭氧(03)氣體輸入後,因為孔徑由大變小,造成流速 由快變慢,而將形成一真空吸附區(233),其出口端(232)並與該液體 輸入部(21)之出口端(212)相接連通者; 該氣、液混合輸出部(25) ’係位於本創作混合裝置(2〇)三通管體 之相對於該液體輸入部(21)之另一端,其入口端(251)之孔徑較小、 而出口端(252)之孔徑則較大,該入口端(251)並係接設於該氣體輸入 _部(23)其真空吸附區(233)之後端,令反應後具有高濃度臭氧含量之 反應水(w+03)可由該出口端(252)連接管路輸出,提供作為一般家庭 洗衣、洗菜、洗蔬果時使用; 據由以上之裝置結構,使液體由該液體輸入部(21)之入口端(211) 進入,經過該渦輪(27)後方之渦輪加壓區(213),因為產生渦流現象, 使液體之壓力變大,再流經過孔徑較小之該出口端(212)時,此時液 體之壓力會變小,再加上當臭氧(03)由其較大孔徑之入口端(231)進 入從較小孔徑之出口端(232)送出後因流速增加而壓力變小,形成一 6M284447 VIII. New description: [New technical field] This creation side can be used to find the silk and the age of the silk, and it can reach the dissolution rate of the gas-liquid mixture and improve the reaction of the reaction water. . [Prior Art] Known by the use of - an ozone generator, can provide ozone gas, used to eliminate bacteria, disinfection, deodorization is very outstanding, the creator of this case has invented a hybrid device, The tap water and the ozone (03) sent by an ozone generator (not shown) are simultaneously reacted by the ship, and the reaction shaft sent out is recorded (10), which can be used for washing clothes and fruits and vegetables. Sterilization, disinfection, removal of pesticides and odors; however, if the high-concentration silk is contained in the handle, it can be used for sterilization and disinfection. [New content] In view of the fact that in order to increase the concentration of ozone in the liquid, the key is to use the vacuum phenomenon generated by the pressure difference principle to increase the adsorption capacity of the liquid to ozone, and to develop a vortex phenomenon to increase the pressure. And increase the pressure difference to produce better vacuum adsorption, increase the speed of gas and liquid mixing and dissolution rate. The present invention relates to a gas-liquid mixing device, which is a three-way pipe structure having a liquid input portion, a gas input portion and a gas and liquid mixed output portion; wherein the liquid input portion is a pipe for general tap water input, the inlet thereof The hole of the end is pinched larger, and the hole at the outlet end is smaller; a turbine is disposed in the liquid input portion, and the door is connected between the inlet end and the outlet end thereof. 4 M284447 has a plurality of thirsty blades, when rotating It can generate eddy current phenomenon and has a pressurizing effect; the gas input part is a pipeline for inputting ozone gas, the diameter of the population end is larger, the diameter of the outlet end is smaller, forming a vacuum adsorption zone, and the outlet end thereof is Connecting the outlet end of the liquid input portion; the gas and liquid mixed output hole has a smaller aperture at the inlet end and a larger aperture at the outlet end, and the inlet end is connected to the gas input portion At the rear end of the vacuum adsorption zone, the reaction water output having two concentrations of ozone after the reaction is provided; accordingly, the reaction water can provide rapid decomposition of residual pesticides, detergents, sterilization, deodorization and the like. [Embodiment] The present invention relates to a gas-liquid mixing device (2〇), as shown in the first, second and third figures, having a liquid input portion (21) and a gas input portion (23). And a three-way pipe structure of the one-gas, g-liquid mixed output part (25); wherein the liquid input part (21) is located at one end of the three-way pipe body of the creation mixing device (2〇), and is used for general tap water input The conduit has a larger aperture at the inlet end (211), is maintained at a distance from the apertures, and is then elongated and further connected to the outlet end thereof. The outlet end (212) has a smaller aperture than the inlet end. (211) a plurality of the liquid input portion (21) is generally in the shape of a cone; a turbine (27), as shown in the fourth figure, is disposed in the liquid input portion (21), Between the inlet end (211) and the outlet end (212), a plurality of spiral vanes (271) are provided to generate a vortex phenomenon during rotation, so that the inlet end (211) of the liquid input portion (21) 5 M284447 Into the tap water, after the turbine (27) generates eddy current, increase the pressure due to the slower speed And a vortex pressurization zone (213) is formed between the inlet end (211) and the outlet end (212) of the liquid input portion (21); the gas input portion (23) is for ozone (03) gas input. The pipeline, and the production of ozone (〇3) gas is supplied by an ozone generator (not shown). Since it is a conventional feature and is not the main feature of the creation, it will not be described here; (23) is disposed at the upper end of the artificial mixing device, and has a pore diameter significantly smaller than the liquid input portion (21) and the gas/liquid mixing output portion (25), and the inlet end (231) has a larger diameter. Large, the outlet end (232) of the hole melon is small, g ozone (03) gas input, because the pore diameter from large to small, resulting in a slower flow rate, and will form a vacuum adsorption zone (233), the outlet end (232) and connected to the outlet end (212) of the liquid input portion (21); the gas and liquid mixed output portion (25) ' is located in the three-way pipe body of the creative mixing device (2〇) At the other end of the liquid input portion (21), the inlet end (251) has a smaller aperture and the outlet end (252) has a smaller aperture. The inlet end (251) is connected to the rear end of the vacuum adsorption zone (233) of the gas input portion (23), so that the reaction water (w+03) having a high concentration of ozone after the reaction can be discharged from the outlet. The end (252) is connected to the pipeline output and is provided for use as a general household laundry, washing vegetables, and washing fruits and vegetables; according to the above device structure, the liquid is entered from the inlet end (211) of the liquid input portion (21), through the The turbine pressurization zone (213) behind the turbine (27) causes a vortex phenomenon to increase the pressure of the liquid, and then flows through the outlet end (212) having a smaller aperture, at which time the pressure of the liquid becomes smaller. In addition, when the ozone (03) enters from the inlet end (231) of the larger aperture and exits from the outlet end (232) of the smaller aperture, the pressure becomes smaller due to the increase of the flow rate, forming a 6