M341556 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種水處理裝置,尤指一種具有提高水中 含氧量,且使水中之空氣形成微細氣泡,並隨水源輸出之微 氣泡之氣液混合裝置。 ' 【先前技術】 按,習用之一種微氣泡水處理裝置9,如第6圖所示, & 其主要係由一馬達9 1、一壓力桶9 2及一高溶氧機構9 3 所組成。該馬達9 1係以加壓方式使水流經一第一流道9 4 而輸送至該壓力桶9 2,該第一流道9 4並設有一空氣閥9 5,俾供空氣進入該第一流道9 4而隨水流流至該壓力桶9 2中,此時,儲存於該壓力桶9 2中的空氣與水,會受到高 壓之影響,俾使空氣溶於水中並產生氣泡。 前述之高溶氧機構9 3係以一第二流道9 6連通於該 φ 壓力桶9 2,並以該高溶氧機構9 3内部流道之設計,使其 ' 具有改變水流流速,以及使溶於水中之氣泡變小之功效。 然而,前述之微氣泡水處理裝置9雖可提高水中之溶氧 量,但礙於該微氣泡水處理裝置9之構件複雜,必須籍助該 壓力桶9 2並配合該高溶氧機構9 3方可達到高溶氧之功 效,且僅以一次進氣及高壓方式溶氧,效果相當有限,因此 實有改善之必要。 【新型内容】 5 M341556 本創作之主要目的,在於解決上述的問題而提供一種微 氣泡之氣液混合裝置,藉由該螺旋管之設置,以及進氣閥之 進氣與泵浦之加壓,俾使空氣溶於水中並產生大量微細氣 泡。 為達前述之目的,本創作係一種微氣泡之氣液混合裝 置,其係配合設於一衛浴設備,該衛浴設備具有至少一水龍 頭,而該微氣泡之氣液混合裝置處理後之水源係可導入該水 r 龍頭,其特徵在於:M341556 VIII. New description: [New technical field] This creation is related to a water treatment device, especially a gas with microbubbles that increases the oxygen content in water and causes the air in the water to form fine bubbles and output with the water source. Liquid mixing device. [Prior Art] According to the conventional microbubble water treatment device 9, as shown in Fig. 6, & it is mainly composed of a motor 9 1 , a pressure tank 9 2 and a high dissolved oxygen mechanism 9 3 . The motor 9 1 is pressurized to pass water through a first flow passage 94 to the pressure tank 92. The first flow passage 94 is provided with an air valve 95 for supplying air into the first flow passage 9. 4, with the flow of water into the pressure tank 92, at this time, the air and water stored in the pressure tank 92 are affected by the high pressure, so that the air is dissolved in the water and bubbles are generated. The high dissolved oxygen mechanism 9 3 is connected to the φ pressure tank 92 by a second flow path 96, and is designed to change the water flow rate by the internal flow path of the high dissolved oxygen mechanism 9.3. The effect of making bubbles dissolved in water smaller. However, the above-mentioned microbubble water treatment device 9 can increase the amount of dissolved oxygen in the water. However, due to the complexity of the components of the microbubble water treatment device 9, it is necessary to assist the pressure tank 92 and cooperate with the high dissolved oxygen mechanism 9 3 . In order to achieve high dissolved oxygen, and only one intake and high pressure dissolved oxygen, the effect is quite limited, so it is necessary to improve. [New content] 5 M341556 The main purpose of this creation is to solve the above problems and provide a gas-liquid mixing device for microbubbles, by the arrangement of the spiral tube and the pressure of the intake and pump of the intake valve. The hydrazine dissolves the air in water and produces a large amount of fine bubbles. For the purpose of the foregoing, the present invention is a micro-bubble gas-liquid mixing device which is provided in a sanitary device, the sanitary device has at least one faucet, and the water source of the micro-bubble gas-liquid mixing device can be used. Introducing the water r faucet, which is characterized by:
Br 該氣液混合裝置係包括至少一泵浦,該泵浦具有一進水 端與一出水端,該進水端係與該出水端相連通,且於該進水 端係設有至少一第一進氣閥,而該出水端係連通於一供水流 道,並以該第一進氣閥導入空氣進入該泵浦,使泵浦進行加 壓時,將空氣與水源進行氣液混合,再由該出水端輸送至該 供水流道;及一螺旋管,其係與該供水流道相連通,使該供 水流道中含有氣液混合之水源流入該螺旋管中,以再次進行 Φ 氣液混合,其係使空氣與水源可於該螺旋管内進行交叉旋動 ' 混合,並可由該螺旋管輸送出富含氧量之水源。 再者,本創作於該供水流道中係可增設一調節閥,俾供 調節該供水流道流入該螺旋管中之水流流量,且同時調節該 供水流道流入該螺旋管中之出水壓力。 此外,本創作於該氣液混合裝置更設有一氣液混合桶, 該氣液混合桶係設有一制水閥座,俾供該氣液混合桶内形成 一密閉空間,且該螺旋管係設置於該密閉空間内,而該制水 6 M341556 闕座係具有一入水部與一出水部,該入水部係與該供水流道 及該螺旋管相連通,而該螺旋管更設有一高壓出水口,使已 進行二次氣液混合之水源可於該高壓出水口噴出,並於該密 閉空間内進行三次氣液混合。 另外,於該氣液混合桶更設有一第二進氣閥,並以該第 二進氣閥第二次導入空氣,而可於該密閉空間進行第四次氣 液混合。 _ 前述之氣液混合桶内亦係有複數顆粒狀之過濾單元,並 以該等過濾單元對氣液混合桶内的水源進行第二次過濾,並 以該等過濾單元之相互擠壓碰撞,令氣液混合更均勻持久而 提高水中之含氧量。 本創作之上述及其他目的與優點,不難從下述所選用實 施例之詳細說明與附圖中,獲得深入了解。 當然,本創作在某些另件上,或另件之安排上容許有所 不同,但所選用之實施例,則於本說明書中,予以詳細說明 籲.,並於附圖中展示其構造。 【實施方式】 請參閱第1圖至第5圖,圖中所示者為本創作所選用之 實施例結構,此僅供說明之用,在專利申請上並不受此種結 構之限制。 首先請參閱第1圖,圖中所示者為一種微氣泡之氣液混 合裝置1,其係配合設於一衛浴設備2,如第5圖所示,該 7 M341556 衛浴設備2具有至少一水龍頭2 1,而該氣液混合裝置i處 理後之水源係可導入該水龍頭21,其特徵在於: 該氣液混合裝置1係包括至少一泵浦1 1,該泵浦1 1 具有一進水端1 1 1與一出水端1 1 2,該進水端1 1 1係 與该出水端1 1 2相連通’且於該進水端1 1 1係設有至少 一第一進氣閥1 2 ’而s亥出水端1 1 2係連通於一供水流道 1 4,並以該第一進氣閥1 2導入空氣進入該泵浦i i,並 :藉由該泵浦11進行加壓時,使泵浦11將空氣與水源進行 馨第一次之氣液混合動作,而使水源中產生許多微小之含氧氣 泡,並藉由該出水端1 1 2而輸送至該供水流道1 4。爾 後,再使具有多數微小氣泡之水源,於本實施例中,該泵浦 1 1係以一高壓泵浦為例,而該第一進氣閥丄2係為一止逆 閥,俾供防止水源逆流而自該第一進氣閥丄2流出。 一螺旋管1 3,其係與該供水流道i 4相連通,並由於 該供水流道1 4巾係含有於第—次進行氣液混合之水源,則 φ 流入該螺旋官1 3中之水源可於該螺旋管1 3中進行第二 :次之氣液混合動作,其係由於空氣與水源會於該螺旋管工3 内進行交叉旋動混合,俾使空氣可於水中混合更加均句,並 可由該螺旋管1 3中輸送出富含氧量之水源。 =上所述,本實施例中之氣液混合裝置1,其係藉由該 螺旋官1 3並配合該泵浦工工與該第一進氣閥丄2之設 置、,便可直接接設於該衛浴設備2,並流出充滿微細氣泡^ 水源,以達提升水中含氧量之功效,且該螺旋管丄3係可直 8 M341556 接裝設於市售之濾、心管内(圖中未示)而加以使用。 t然’賴.作财其它例子,f帽差異於部份之變 化。請參閱第2圖,其係本創作之第二實施例,其中,於該 ί、水抓道1 4中係可增設-調節閥3,俾供調節該供水流道 1 4流入該螺旋管! 3中之水流流量,且同時調節該供水流 .道14流入該螺旋管! 3中之出水壓力,且於本實施例中, 該調節閥3係為一限流閥。 : • 請參閱第3圖,其係本創作之第三實施例,其中,該氣 液混合裝置1更設有-氣液混合桶丨5。誠液混合桶丄5 於底=係設有-制水閥座i 6,俾供該氣液混合桶i 5内形 成一你閉空間1 7,且該螺旋管丄3係設置於該密閉空間工 7内,於本實施例中,該螺旋管i 3其中一端係設於該制水 閥座1 6上,而該制水閥座1 6係具有一入水部1 6 1與一 出水部1 6 2 ,該入水部χ 6 χ係與該供水流道1 4及設於 该制水閥座1 6上之螺旋管1 3相連通,而該出水部1 6 2 • 具有一可與該氣液混合桶1 5之密閉空間^ 7相連通之導 ;流孔1 6 3。 該螺旋管13更具有一高壓出水口 18,且該高壓出水 口 1 8係具有一呈扁平狀之開口端丄8 ^,而上述實施例所 述之水源’則於該螺旋管1 3中進行氣液混合後,再由該高 壓出水口18之開口端181送出。 藉由該高壓出水口18之開口端181係呈扁平狀,因 此’由於流道漸縮,使得水源流至該開口端1 8 1時壓力增 9 M341556 加,導致水流係以尚壓喷射方式由該高壓出水口1 8喷出, 並直接衝擊該氣液混合桶2 5密閉空間i 7之一側,於本實 施例中,該高壓出水口 i 8係對應該氣液混合桶i 5之頂緣 再者,由於水分子在碰撞該氣液混合桶1 5時會改變原 本移動方向,此舉即令衝擊該氣液混合桶i 5之高壓水流改 變原本水流流向,並在該氣液混合桶丄5内產生紊流,2順 利進行第二次氣液混合,而氣液混合後之水源更會在水中產 生許多更微細之氣泡。 此外,為提升淨水效果以及增加氣液混合之功效,本創 作可於該氣液混合桶1 5内置放複數顆粒狀之過濾單元工 9,並以該等過濾單元1 9對氣液混合桶χ 5内的水源再次 進行過濾,並以該等過濾單元i 9之相互擠壓碰撞,令氣液 合更為均勻持久,進而更提高水中之含氧量。 旦前述經三次氣液混合之水源因含有大量微細氣泡,意即 大量空氣已混合於水源内而提高水源之含氧量,即可以該制 水閥座1 6之導流孔1 6 3將水源導引至該出水部丄°6 2 再請參閱第4圖與第5圖,圖中所示者為本創作之第四 實施例’其與前述第三實施例之差異在於,該高壓出水口工 8 A係由該螺旋fl 3 a所繞設之範_穿設而出,且該氣 液混合桶1 5更設有至少-第二進氣閥工5 i,該第二進氣 閥151於本實施例中係以—止逆閥為例,並以該第二進氣 M341556 閥1 5 1進行第二次空氣導入,而於該密閉空間1 7進行第 四次氣液混合,並藉由該第二進氣閥1 5 1導入更多之空 氣,以求提高水中更多含氧量。 由上述之實施例可得知,本創作之優點在於··藉由該空 氣與水源同時進入泵浦中,再藉由泵浦加壓使空氣與水源進 行混合,並使其經加壓後之氣液進入一螺旋管,以再次進行 氣液混合,再通過一高壓出水口,並以高壓水流之方式噴入 r 氣液混合桶内,並配合第一、第二進氣閥以及過濾單元之設 ^ 置,而可過滤水中雜質並令空氣與水源之混合更加均勻,不 僅大大提升水中之含氧量,且於混合後之水源中含有大量微 細氣泡。 以上所述實施例之揭示係用以說明本創作,並非用以限 制本創作,故舉凡數值之變更或等效元件之置換仍應隸屬本 創作之範疇。 由以上詳細說明,可使熟知本項技藝者明暸本創作的確 • 可達成前述目的,實已符合專利法之規定,爰提出專利申請 〇 【圖式簡單說明】 第1圖係本創作第一實施例之結構示意圖。 第2圖係本創作第二實施例之結構示意圖。 第3圖係本創作第三實施例之結構示意圖。 第4圖係本創作第四實施例之結構示意圖。 11 M341556 第5圖係本創作第四實施例之使用狀態示意圖。 第6圖係習用之微氣泡水處理裝置。 【主要元件符號說明】 (習用部分) 馬達9 1 高壓溶氧機構9 3 空氣閥9 5 泵浦1 1 出水端112 螺旋管1 3、1 3 A 氣液混合桶15 制水閥座1 6 出水部1 6 2 密閉空間1 7 開口端181 衛浴設備2 調節閥3Br the gas-liquid mixing device comprises at least one pump, the pump has a water inlet end and a water outlet end, the water inlet end is in communication with the water outlet end, and at least one of the water inlet ends is provided An intake valve, wherein the outlet end is connected to a water supply flow path, and the first intake valve is introduced into the pump to enter the pump, so that when the pump is pressurized, the air and the water source are gas-liquid mixed, and then The water outlet is conveyed to the water supply flow channel; and a spiral pipe is connected to the water supply flow channel, so that a water source containing gas-liquid mixture in the water supply flow path flows into the spiral pipe to perform Φ gas-liquid mixing again. The air and water sources can be cross-rotated and mixed in the spiral tube, and the oxygen source can be transported by the spiral tube. Furthermore, in the water supply channel, a regulating valve may be added to adjust the flow rate of the water flowing into the spiral pipe, and at the same time adjust the water supply pressure of the water supply pipe into the spiral pipe. In addition, the gas-liquid mixing device further comprises a gas-liquid mixing barrel, wherein the gas-liquid mixing barrel is provided with a water-filling valve seat for forming a closed space in the gas-liquid mixing barrel, and the spiral tube system is arranged In the confined space, the water system 6 M341556 has a water inlet portion and a water outlet portion, the water inlet portion is in communication with the water supply flow channel and the spiral tube, and the spiral tube is further provided with a high pressure water outlet. The water source that has been subjected to the secondary gas-liquid mixing can be ejected at the high-pressure water outlet, and three gas-liquid mixing is performed in the confined space. Further, a second intake valve is further provided in the gas-liquid mixing tank, and air is introduced a second time by the second intake valve, and the fourth gas-liquid mixing can be performed in the sealed space. _ The aforementioned gas-liquid mixing tank is also provided with a plurality of granular filter units, and the water source in the gas-liquid mixing tank is filtered for the second time by the filtering units, and the filter units are pressed against each other. Make the gas-liquid mixture more uniform and lasting and increase the oxygen content in the water. The above and other objects and advantages of the present invention will become more apparent from the detailed description and the accompanying drawings. Of course, the present invention is allowed to differ in some of the parts, or the arrangement of the parts, but the selected embodiments are described in detail in the present specification, and the construction thereof is shown in the drawings. [Embodiment] Please refer to Fig. 1 to Fig. 5, which shows the structure of the embodiment selected for the present invention, which is for illustrative purposes only and is not limited by the structure in the patent application. First, please refer to FIG. 1 , which shows a micro-bubble gas-liquid mixing device 1 , which is matched with a sanitary device 2 . As shown in FIG. 5 , the 7 M341556 sanitary device 2 has at least one tap. 2, and the water source treated by the gas-liquid mixing device i can be introduced into the faucet 21, wherein: the gas-liquid mixing device 1 includes at least one pump 1 1 , and the pump 1 1 has a water inlet end 1 1 1 and a water outlet end 1 1 2, the water inlet end 1 1 1 is in communication with the water outlet end 1 1 2 ' and at least one first intake valve 1 2 is provided at the water inlet end 1 1 1 And the shai outlet end 1 1 2 is connected to a water supply passage 14 and introduces air into the pump ii through the first intake valve 12, and: when the pump 11 is pressurized, The pump 11 is caused to perform the first gas-liquid mixing operation of the air and the water source, so that a plurality of minute oxygen-containing gas bubbles are generated in the water source, and are transported to the water supply flow path 14 by the water outlet end 112. Then, in the present embodiment, the pump 11 is a high pressure pump, and the first intake valve 丄 2 is a check valve, which is used for preventing the water source. The water source flows backward from the first intake valve 丄2. a spiral tube 13 is connected to the water supply channel i 4 , and since the water supply channel 14 contains the water source for gas-liquid mixing for the first time, φ flows into the screw officer 13 The water source can perform the second: second gas-liquid mixing action in the spiral tube 13 because the air and the water source are cross-rotating and mixing in the spiral pipeman 3, so that the air can be mixed in the water. And an oxygen-rich water source can be delivered from the spiral tube 13. In the above, the gas-liquid mixing device 1 in the present embodiment can be directly connected by the screwing machine 13 and the setting of the pumping worker and the first intake valve 丄2. In the bathroom equipment 2, and flowing out of the micro-bubble water source, in order to enhance the oxygen content of the water, and the spiral tube 丄 3 series can be directly connected to the commercially available filter and heart tube (8 in the figure) Used). However, other examples of making money, the f cap is different from the partial change. Please refer to Fig. 2, which is a second embodiment of the present invention, in which a regulating valve 3 can be added to the water grab channel 14 to adjust the water supply flow path 14 into the spiral tube! The flow of water in 3, and at the same time adjust the water supply flow. The road 14 flows into the spiral tube! The water discharge pressure in 3, and in the present embodiment, the regulating valve 3 is a restrictor valve. Refer to Fig. 3, which is a third embodiment of the present invention, wherein the gas-liquid mixing device 1 is further provided with a gas-liquid mixing tank 5. The liquid mixing tank 丄5 is at the bottom=the system is provided with a water valve seat i6, and a closed space is formed in the gas-liquid mixing tank i5, and the spiral tube 丄3 is arranged in the closed space. In the embodiment 7, in the embodiment, one end of the spiral tube i 3 is disposed on the water valve seat 16 , and the water valve seat 16 has a water inlet portion 1 6 1 and a water outlet portion 1 6 2 , the water inlet portion 6 is connected to the water supply passage 14 and the spiral tube 13 disposed on the water valve seat 16 , and the water outlet portion 1 6 2 • has a gas The closed space of the liquid mixing tank 1 5 is connected with the 7-phase; the flow hole is 1 6 3. The spiral tube 13 further has a high pressure water outlet 18, and the high pressure water outlet 18 has a flat open end ^ 8 ^, and the water source ' described in the above embodiment is carried out in the spiral tube 13 After the gas and liquid are mixed, it is sent out from the open end 181 of the high pressure water outlet 18. The open end 181 of the high-pressure water outlet 18 is flat, so that the pressure is increased by 9 M341556 when the water source flows to the open end 1 8 1 due to the tapered flow path, so that the water flow system is sprayed by the pressure injection method. The high-pressure water outlet 18 is sprayed out and directly impacts one side of the closed space i 7 of the gas-liquid mixing tank. In the embodiment, the high-pressure water outlet i 8 corresponds to the top of the gas-liquid mixing tank i 5 . In addition, since the water molecules change the original moving direction when colliding with the gas-liquid mixing tank 15, the high-pressure water flow that impacts the gas-liquid mixing tank i 5 changes the original water flow direction, and in the gas-liquid mixing tank There is turbulent flow in 5, 2 the second gas-liquid mixing is carried out smoothly, and the water source after gas-liquid mixing will produce many finer bubbles in the water. In addition, in order to improve the water purification effect and increase the effect of gas-liquid mixing, the creation can be filled with a plurality of granular filter unit 9 in the gas-liquid mixing tank 15 and the gas-liquid mixing barrels of the filter units 19 The water source in the crucible 5 is filtered again, and the filter unit i 9 is pressed against each other to make the gas-liquid mixture more uniform and long-lasting, thereby further increasing the oxygen content in the water. Once the water source mixed by the three gas-liquid mixtures contains a large amount of fine bubbles, that is, a large amount of air has been mixed in the water source to increase the oxygen content of the water source, that is, the water guiding hole of the water valve seat 16 can be used as the water source. Guided to the water outlet 丄°6 2 Referring again to Figures 4 and 5, the figure shows a fourth embodiment of the present invention, which differs from the aforementioned third embodiment in that the high pressure water outlet The 8A system is provided by the spiral w 3 a, and the gas-liquid mixing barrel 15 is further provided with at least a second intake valve 5 i. The second intake valve 151 In the embodiment, the check valve is taken as an example, and the second air intake is performed by the second air intake M341556 valve 151, and the fourth air-liquid mixing is performed in the sealed space 17 and borrowed. More air is introduced from the second intake valve 151 to increase the amount of oxygen in the water. It can be seen from the above embodiments that the advantage of the present invention is that the air and the water source simultaneously enter the pump, and then the air is mixed with the water source by pumping and pressurized. The gas and liquid enters a spiral tube to perform gas-liquid mixing again, passes through a high-pressure water outlet, and is injected into the r-liquid mixing tank as a high-pressure water stream, and cooperates with the first and second intake valves and the filtering unit. By setting the filter, the impurities in the water can be filtered and the mixing of the air and the water source is more uniform, which not only greatly increases the oxygen content in the water, but also contains a large amount of fine bubbles in the water source after mixing. The above description of the embodiments is intended to be illustrative of the present invention and is not intended to limit the scope of the present invention. From the above detailed description, it can be made clear to the skilled person that the creation of the present invention can achieve the above-mentioned objectives, and has already met the requirements of the Patent Law, and has filed a patent application [a simple description of the drawing]. Figure 1 is the first implementation of the creation. A schematic diagram of the structure of the example. Figure 2 is a schematic view showing the structure of the second embodiment of the present creation. Figure 3 is a schematic view showing the structure of the third embodiment of the present creation. Figure 4 is a schematic view showing the structure of the fourth embodiment of the present creation. 11 M341556 Fig. 5 is a schematic view showing the state of use of the fourth embodiment of the present creation. Figure 6 is a conventional microbubble water treatment device. [Main component symbol description] (customized part) Motor 9 1 High-pressure dissolved oxygen mechanism 9 3 Air valve 9 5 Pump 1 1 Water outlet 112 Spiral pipe 1 3, 1 3 A Gas-liquid mixing tank 15 Water valve seat 1 6 Water outlet Part 1 6 2 Confined space 1 7 Open end 181 Bathroom equipment 2 Control valve 3
微氣泡水處理裝置9 壓力桶9 2 第一流道9 4 第二流道9 6 (本創作部分) 微氣泡之氣液混合裝置1 進水端111 第一進氣閥12 供水流道14 第二進氣閥151 入水部161 導流孔1 6 3 高壓出水口18、18A 過濾單元19 水龍頭2 1 12Microbubble water treatment device 9 Pressure tank 9 2 First flow passage 9 4 Second flow passage 9 6 (This creation part) Micro-bubble gas-liquid mixing device 1 Water inlet end 111 First intake valve 12 Water supply flow passage 14 Second Intake valve 151 Inlet 161 Inlet hole 1 6 3 High pressure water outlet 18, 18A Filter unit 19 Faucet 2 1 12