TW201615894A - A gas generator - Google Patents

A gas generator Download PDF

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Publication number
TW201615894A
TW201615894A TW103135891A TW103135891A TW201615894A TW 201615894 A TW201615894 A TW 201615894A TW 103135891 A TW103135891 A TW 103135891A TW 103135891 A TW103135891 A TW 103135891A TW 201615894 A TW201615894 A TW 201615894A
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Taiwan
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water
hydrogen
gas
mixed gas
electrolysis
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TW103135891A
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Chinese (zh)
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林信湧
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林信湧
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Priority to TW103135891A priority Critical patent/TW201615894A/en
Priority claimed from US14/875,629 external-priority patent/US10465300B2/en
Publication of TW201615894A publication Critical patent/TW201615894A/en

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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/30Hydrogen technology
    • Y02E60/36Hydrogen production from non-carbon containing sources, e.g. by water electrolysis

Abstract

The invention provides a gas generator comprising an electrolysis device and a humidifying device. The electrolysis device is used for electrolyzing electrolysis water to produce a gas mixture including hydrogen and oxygen. The humidifying device comprises a hollow body for holding water; a second tube set in the hollow body and connected to the electrolysis device for receiving the gas mixture including hydrogen and oxygen; at least one outlet tube having a plurality of nano through-holes set in the hollow body and connected to the second tube; an oscillator set in the hollow body and below the at least one outlet tube for vibrating the water. When the electrolysis device starts to electrolyze the electrolysis water to produce the gas mixture including hydrogen and oxygen, the gas mixture including hydrogen and oxygen is ejected through the plurality of nano through-holes of the at least one outlet tube and dissolved into the water vibrated by the oscillator for human use.

Description

氣體產生器 Gas generator

本發明係有關於一種氣體產生器,特別是有關於一種具有濕化功能之氣體產生器。 The present invention relates to a gas generator, and more particularly to a gas generator having a humidification function.

一直以來,人類對於生命是十分地重視,許多醫療的技術的開發,都是用來對抗疾病,以延續人類的生命。過去的醫療方式大部分都是屬於被動,也就是當疾病發生時,再對症進行醫療,比如手術、給藥、甚至癌症的化學治療、放射性治療、或者慢性病的調養、復健、矯正等。但是近年來,許多醫學專家逐漸朝向預防性的醫學方法進行研究,比如保健食品的研究,遺傳性疾病篩檢與提早預防等,更是主動的針對未來性可能之發病進行預防。另外,為了延長人類壽命,許多抗老化、抗氧化的技術逐漸被開發,且廣泛地被大眾採用,包含塗抹的保養品及抗氧化食物/藥物等。 Human beings have always attached great importance to life. Many medical technologies have been developed to fight disease and continue human life. Most of the past medical treatments are passive, that is, when the disease occurs, the disease is treated again, such as surgery, drug administration, and even chemotherapy, radiotherapy, or the rehabilitation, rehabilitation, and correction of chronic diseases. However, in recent years, many medical experts have gradually made research toward preventive medical methods, such as health food research, genetic disease screening and early prevention, etc., and actively prevent future morbidity. In addition, in order to extend human life, many anti-aging and anti-oxidation technologies have been developed and widely used by the public, including smeared skin care products and antioxidant foods/drugs.

經研究發現:人體因各種原因,(比如疾病,飲食,所處環境或生活習慣)引生的不安定氧(O+),亦稱自由基(有害自由基),可以與吸入的氫混合成部份的水,而排出體外。間接減少人體自由基的數量,達到酸性體質還原至健康的鹼性體質,可以抗氧化、抗老化,進而也達到消除慢性疾病和美容保健效果。甚至有臨床實驗顯示,對於一些久臥病床的病 人,因為長期呼吸高濃度氧,造成的肺損傷,可以透過吸入氫氣以緩解肺損傷的症狀。 Studies have found that the body's unstable oxygen (O+), also known as free radicals (harmful free radicals), can be mixed with inhaled hydrogen for various reasons (such as disease, diet, environment or lifestyle). Part of the water, and excreted. Indirectly reduce the amount of free radicals in the human body, achieve acidic body to reduce to a healthy alkaline body, can resist oxidation, anti-aging, and thus achieve the elimination of chronic diseases and beauty care effects. There are even clinical trials showing that for some long-term beds People, because of long-term breathing of high concentrations of oxygen, lung damage, can be inhaled by hydrogen to relieve the symptoms of lung injury.

然而,經由電解裝置電解電解水後所產生之氫氧混合氣體通常具有較高的溫度且相對乾燥,其並不適合人體直接吸入。同時,在電解過程中亦會有電解水與電解質消耗的問題,而需要補充水及電解質的情形發生。以上問題進而常常造成習知電解裝置使用上的不便利。 However, the hydrogen-oxygen mixed gas produced after electrolytically electrolyzing water through an electrolysis device generally has a relatively high temperature and is relatively dry, and is not suitable for direct inhalation by a human body. At the same time, there is also a problem of electrolyzed water and electrolyte consumption in the electrolysis process, and it is necessary to replenish water and electrolyte. The above problems, in turn, often cause inconvenience in the use of conventional electrolyzers.

因此,本發明的觀點之一在於提供一種氣體產生器,其包含一電解裝置及一濕化裝置。電解裝置容置有一電解水,用以電解電解水以產生一氫氧混合氣體。濕化裝置包含有一中空本體、一輸入管、至少一輸出管以及一震盪裝置。中空本體用以容置一補充水。輸入管設置於中空本體上並連接於電解裝置,用以接收氫氧混合氣體。至少一輸出管設置於中空本體之中並與第二導管連接。至少一輸出管之表面具有複數個之奈米穿孔。震盪裝置設置於中空本體之中並位於至少一輸出管之下方,用以震盪補充水。其中當電解裝置電解電解水以產生氫氧混合氣體時,氫氧混合氣體經由至少一輸出管之複數個奈米穿孔排出,並藉由震盪裝置震盪後之補充水以濕化氫氧混合氣體。 Accordingly, one aspect of the present invention is to provide a gas generator comprising an electrolysis device and a humidification device. The electrolysis device houses an electrolyzed water for electrolytically electrolyzing water to produce a hydrogen-oxygen mixed gas. The humidification device comprises a hollow body, an input tube, at least one output tube and an oscillating device. The hollow body is for accommodating a supplementary water. The input tube is disposed on the hollow body and connected to the electrolysis device for receiving the hydrogen-oxygen mixed gas. At least one output tube is disposed in the hollow body and connected to the second conduit. The surface of at least one of the output tubes has a plurality of nanoperforations. The oscillating device is disposed in the hollow body and located under the at least one output tube for oscillating the supplementary water. Wherein when the electrolysis device electrolyzes the electrolyzed water to produce a hydrogen-oxygen mixed gas, the hydrogen-oxygen mixed gas is discharged through a plurality of nanoperforations of at least one of the output tubes, and the replenishing water oscillated by the oscillating device to humidify the hydrogen-oxygen mixed gas.

此外,本發明亦可經由該至少一輸出管之複數個奈米穿孔所排出之氫氧混合氣體得選擇性地與震盪裝置震盪後之補充水結合,進而產生一氫氣水。 In addition, the present invention can also selectively combine the hydrogen-oxygen mixed gas discharged through the plurality of nanoperforations of the at least one output tube with the supplementary water after the shaking of the oscillating device to generate a hydrogen water.

濕化裝置得選擇性地另包含有一第三導管。第三導管設置於中空本體上,用以輸出氫氣水。 The humidification device is selectively further comprised with a third conduit. The third conduit is disposed on the hollow body for outputting hydrogen water.

當電解裝置暫停電解電解水以產生氫氧混合氣體時,濕化裝置得選擇性地補充補充水,並經由濕化裝置之第三導管以輸入補充水至濕化裝置之中空本體內。 When the electrolysis device suspends the electrolyzed electrolyzed water to produce a hydrogen-oxygen mixed gas, the humidification device selectively replenishes the make-up water and inputs the supplemental water to the hollow body of the humidification device via the third conduit of the humidification device.

濕化裝置得選擇性地另包含有一第四導管。第四導管設置於中空本體上,用以輸出經過濕化後之氫氧混合氣體。 The humidification device is selectively further comprised with a fourth conduit. The fourth conduit is disposed on the hollow body for outputting the humidified hydrogen-oxygen mixed gas.

再者,本發明之氣體產生器得另包含一霧化/揮發氣體混合槽。霧化/揮發氣體混合槽連接濕化裝置之第四導管,用以接收濕化後之氫氧混合氣體。霧化/揮發氣體混合槽產生一霧化氣體與濕化後之氫氧混合氣體混合,以形成一保健氣體供一使用者吸入。其中霧化氣體選自於由水蒸汽、霧化藥水、揮發精油及其組合所組成之族群中的一種。 Furthermore, the gas generator of the present invention additionally comprises an atomizing/volatile gas mixing tank. The atomization/volatile gas mixing tank is connected to the fourth conduit of the humidification device for receiving the humidified hydrogen-oxygen mixed gas. The atomization/volatile gas mixing tank generates an atomizing gas mixed with the humidified hydrogen-oxygen mixed gas to form a health care gas for inhalation by a user. The atomizing gas is selected from the group consisting of water vapor, atomized syrup, volatile essential oil, and combinations thereof.

本發明之氣體產生器得另包含一手持式霧化裝置。手持式霧化裝置連接濕化裝置之第四導管,用以接收濕化後之氫氧混合氣體。手持式霧化裝置產生一霧化氣體與濕化後之氫氧混合氣體混合,以形成一保健氣體供一使用者吸入。其中霧化氣體選自於由水蒸汽、霧化藥水、揮發精油及其組合所組成之族群中的一種。 The gas generator of the present invention additionally includes a hand held atomizing device. The hand-held atomizing device is connected to the fourth conduit of the humidifying device for receiving the humidified hydrogen-oxygen mixed gas. The hand-held atomizing device generates an atomizing gas mixed with the humidified hydrogen-oxygen mixed gas to form a health care gas for inhalation by a user. The atomizing gas is selected from the group consisting of water vapor, atomized syrup, volatile essential oil, and combinations thereof.

再者,本發明之氣體產生器得另包含一冷凝過濾器。冷凝過濾器設於電解裝置與濕化裝置之間,用以冷凝電解裝置所產生之氫氧混合氣體同時並過濾氫氧混合氣體中之一雜質。冷凝過濾器具有一入氣孔以及一出氣孔。入氣孔連接於電解裝置,用以接收氫氧混合氣體。出氣孔用以排出過濾後之氫氧混合氣體。其中濕化裝置之第二導管連接於冷凝過濾器之出氣孔,用以接收過濾後之氫氧混合氣體。 Further, the gas generator of the present invention may further comprise a condensing filter. The condensing filter is disposed between the electrolysis device and the humidifying device for condensing the hydrogen-oxygen mixed gas generated by the electrolyzing device and simultaneously filtering one impurity in the hydrogen-oxygen mixed gas. The condensing filter has an air inlet and an air outlet. The air inlet is connected to the electrolysis device for receiving the hydrogen-oxygen mixed gas. The vent hole is used to discharge the filtered hydrogen-oxygen mixed gas. The second conduit of the humidification device is connected to the air outlet of the condensing filter for receiving the filtered hydrogen-oxygen mixed gas.

當電解裝置暫停電解電解水以產生氫氧混合氣體時,濕化裝 置得選擇性地補充補充水,並經由濕化裝置之第二導管與冷凝過濾器之出氣孔以輸入補充水。同時雜質亦可以藉由補充水經由冷凝過濾器之入氣孔回沖至電解裝置。 When the electrolysis device suspends the electrolytic electrolysis water to produce a hydrogen-oxygen mixed gas, the wet preparation The supplemental water is selectively replenished and the supplemental water is input via the second conduit of the humidification device and the venting port of the condensing filter. At the same time, the impurities can also be flushed back to the electrolysis device via the venting holes of the condensing filter by the supplementary water.

氣體產生器之氫氧混合氣體之產生流率得選擇性地介於0.01L/min.與12L/min.之間。 The flow rate of the hydrogen-oxygen mixed gas of the gas generator is selectively between 0.01 L/min. and 12 L/min.

複數個奈米穿孔之尺寸得介於2奈米至10奈米的範圍間。 The size of the plurality of nanoperforations is between 2 nm and 10 nm.

震盪裝置得包含一超音波震盪器以對補充水進行震盪。 The oscillating device includes an ultrasonic oscillator to oscillate the makeup water.

震盪裝置得包含一離心葉片以及連接離心葉片之一驅動馬達。驅動馬達係用以驅動離心葉片旋轉以對補充水進行震盪及離心。 The oscillating device has a centrifugal blade and a drive motor connected to the centrifugal blade. The drive motor is used to drive the centrifugal blades to rotate to oscillate and centrifuge the makeup water.

綜合而言,本發明的重點在於提出一種氣體產生器,其包含電解裝置以及濕化裝置。於本發明之氣體產生器中,電解裝置所產生之氫氧混合氣體能夠藉由濕化裝置進行濕化,以提供適合人體吸入之氫氧混合氣體。另外,電解裝置所產生之氫氧混合氣體能夠藉由濕化裝置,以產生溶解較高濃度的氫氧混合氣體之氫氣水,於實際應用時,得視使用者所需以產生具有所需濃度的氫氧混合氣體之氫氣水。此外,藉由本發明之設計能夠用以補充補充水,同時將電解質回沖至電解裝置,用以恢復循環流道之過濾能力、防止循環流道之阻塞和腐蝕以及減低電解質之消耗。 In summary, the focus of the present invention is to propose a gas generator comprising an electrolysis device and a humidification device. In the gas generator of the present invention, the hydrogen-oxygen mixed gas produced by the electrolysis device can be humidified by a humidifying device to provide a hydrogen-oxygen mixed gas suitable for human inhalation. In addition, the hydrogen-oxygen mixed gas generated by the electrolysis device can be used to generate hydrogen water which dissolves a relatively high concentration of the hydrogen-oxygen mixed gas by the humidification device, and in actual application, depending on the user's needs to produce the desired concentration. Hydrogen-oxygen mixed gas of hydrogen water. In addition, the design of the present invention can be used to supplement the makeup water while the electrolyte is backflushed to the electrolysis device to restore the filtration capacity of the circulation flow path, prevent clogging and corrosion of the circulation flow path, and reduce the consumption of the electrolyte.

W‧‧‧電解水 W‧‧‧electrolyzed water

W2‧‧‧補充水 W2‧‧‧Supply water

G‧‧‧氫氧混合氣體 G‧‧‧Hydrogen-oxygen mixed gas

G2‧‧‧霧化氣體 G2‧‧‧ atomizing gas

H‧‧‧氫氣水 H‧‧‧hydrogen water

1‧‧‧氣體產生器 1‧‧‧ gas generator

2‧‧‧水箱 2‧‧‧Water tank

20‧‧‧第一中空部 20‧‧‧The first hollow

200‧‧‧上部 200‧‧‧ upper

202‧‧‧下部 202‧‧‧ lower

22‧‧‧導管 22‧‧‧ catheter

24‧‧‧水箱槽體 24‧‧‧Water tank

240‧‧‧第一底座 240‧‧‧First base

242‧‧‧第一壁部 242‧‧‧First wall

244‧‧‧第一開口部 244‧‧‧ first opening

246‧‧‧第一嵌合結構 246‧‧‧First chimeric structure

248‧‧‧第一側緣 248‧‧‧First side edge

249a‧‧‧出水口 249a‧‧‧Water outlet

249b‧‧‧入水口 249b‧‧‧ water inlet

26‧‧‧水箱蓋體 26‧‧‧Water tank cover

260‧‧‧第二底座 260‧‧‧Second base

261‧‧‧蓋孔 261‧‧‧ Cover Hole

262‧‧‧第二壁部 262‧‧‧ Second wall

264‧‧‧第二中空部 264‧‧‧Second hollow

266‧‧‧第二開口部 266‧‧‧second opening

28‧‧‧密封墊 28‧‧‧ Seal

280‧‧‧第三開口部 280‧‧‧ third opening

282‧‧‧第三嵌合結構 282‧‧‧ Third chimeric structure

3‧‧‧電解裝置 3‧‧‧Electrolytic device

30‧‧‧隔板 30‧‧‧Baffle

300‧‧‧連通孔 300‧‧‧Connected holes

32‧‧‧電解槽體 32‧‧‧ Electrolytic tank body

320‧‧‧第四底座 320‧‧‧fourth base

3202‧‧‧下穿孔 3202‧‧‧ underperture

3204‧‧‧凹槽 3204‧‧‧ Groove

322‧‧‧第四壁部 322‧‧‧Fourth wall

3220‧‧‧固定柱 3220‧‧‧Fixed column

324‧‧‧第四中空部 324‧‧‧Fourth hollow

326‧‧‧第四開口部 326‧‧‧fourth opening

33‧‧‧電極柱 33‧‧‧electrode column

34‧‧‧複數個電極 34‧‧‧Multiple electrodes

340‧‧‧陰極片 340‧‧‧ cathode film

342‧‧‧陽極片 342‧‧‧Anode film

344‧‧‧雙極性電極片 344‧‧‧Bipolar electrode sheets

36‧‧‧墊板 36‧‧‧ pads

360‧‧‧上穿孔 360‧‧‧perforation

37‧‧‧上蓋體 37‧‧‧Upper cover

370‧‧‧第一流道 370‧‧‧First runner

38‧‧‧下蓋體 38‧‧‧ Lower cover

380‧‧‧第二流道 380‧‧‧Second runner

4‧‧‧霧化/揮發氣體混合槽 4‧‧‧Atomizing/volatile gas mixing tank

5‧‧‧水泵裝置 5‧‧‧Water pump device

50‧‧‧入水管 50‧‧‧water inlet

52‧‧‧出水管 52‧‧‧Outlet

6‧‧‧冷凝過濾器 6‧‧‧Condensation filter

60‧‧‧入氣孔 60‧‧‧Inlet holes

600‧‧‧過濾網 600‧‧‧Filter

602‧‧‧過濾網蓋 602‧‧‧Filter cover

62‧‧‧出氣孔 62‧‧‧ Vents

64‧‧‧冷凝片 64‧‧‧Condensation film

640a‧‧‧流道 640a‧‧‧ runner

640‧‧‧循環流道 640‧‧‧Circular runner

7‧‧‧冷卻裝置 7‧‧‧Cooling device

70‧‧‧散熱器 70‧‧‧heatsink

700‧‧‧箱體 700‧‧‧ cabinet

702‧‧‧散熱管 702‧‧‧heat pipe

704‧‧‧入口 704‧‧‧ entrance

706‧‧‧出口 706‧‧‧Export

72‧‧‧風扇 72‧‧‧fan

82‧‧‧流量偵測器 82‧‧‧Flow detector

9‧‧‧濕化裝置 9‧‧‧Humidification unit

90‧‧‧中空本體 90‧‧‧ hollow body

92‧‧‧第二導管 92‧‧‧Second catheter

94‧‧‧輸出管 94‧‧‧Output tube

95‧‧‧震盪裝置 95‧‧‧ oscillating device

96‧‧‧第三導管 96‧‧‧ third catheter

98‧‧‧第四導管 98‧‧‧4th catheter

圖一A及圖一B係繪示本發明之氣體產生器於第一具體實施例中之不同視角的示意圖。 1A and 1B are schematic views showing different angles of view of the gas generator of the present invention in the first embodiment.

圖二A及圖二B為圖一A所示實施例中僅具水箱上蓋及電解裝置組合時之不同視角的示意圖。 FIG. 2A and FIG. 2B are schematic diagrams showing different viewing angles of the water tank upper cover and the electrolysis device combination in the embodiment shown in FIG.

圖三A及圖三B為圖一A所示實施例中僅具電解裝置及水箱槽體組合時之不同視角的示意圖。 FIG. 3A and FIG. 3B are schematic diagrams showing different viewing angles of the embodiment shown in FIG. 1A with only the combination of the electrolysis device and the water tank.

圖四A及圖四B係繪示本發明氣體產生器之電解裝置於圖一A所示實施例中不同視角的爆炸圖。 4A and 4B are exploded views showing different angles of view of the electrolysis apparatus of the gas generator of the present invention in the embodiment shown in FIG.

圖五A及圖五B係繪示本發明之氣體產生器之水箱槽體及電解裝置於圖三A中所示實施例之俯視圖及沿該俯視圖之A-A線剖設之剖面圖。 5A and 5B are a plan view showing the embodiment of the water tank body and the electrolysis device of the gas generator of the present invention in the embodiment shown in FIG. 3A and a cross-sectional view taken along line A-A of the plan view.

圖六為圖一A所示實施例中僅具電解槽體、隔板及電極組合時之不同視角的示意圖。 Fig. 6 is a schematic view showing different viewing angles of the embodiment shown in Fig. A with only the electrolytic cell body, the separator and the electrode combination.

圖七A及圖七B係繪示本發明之氣體產生器之水箱槽體及電解裝置於圖三A中所示實施例之俯視圖及沿該俯視圖之B-B線剖設之剖面圖。 7A and 7B are a plan view showing the embodiment of the water tank body and the electrolysis device of the gas generator of the present invention in the embodiment shown in FIG. 3A and a cross-sectional view taken along line B-B of the plan view.

圖八係繪示本發明之氣體產生器於第二具體實施例中的示意圖。 Figure 8 is a schematic view showing the gas generator of the present invention in a second embodiment.

圖九A及圖九B係繪示本發明之氣體產生器於第十具體實施例中之不同視角的示意圖。 9A and 9B are schematic views showing different angles of view of the gas generator of the present invention in the tenth embodiment.

圖十A及圖十B為圖九A所示實施例中僅具冷凝過濾器及水箱蓋體組合時之不同視角的示意圖。 FIG. 10A and FIG. 10B are schematic diagrams showing different viewing angles when only the condensing filter and the water tank cover are combined in the embodiment shown in FIG. 9A.

圖十一係繪示圖十A所示實施例中不具有水箱蓋體時的示意圖。 Figure 11 is a schematic view showing the embodiment of Figure 10A without the water tank cover.

圖十二係繪示圖十一所示實施例中不具有過濾網時的示意圖。 Figure 12 is a schematic view showing the embodiment of Figure 11 without a filter.

圖十三係繪示圖十二所示實施例中不具有過濾網蓋時的示意圖。 Figure 13 is a schematic view showing the embodiment of Figure 12 without the filter cover.

圖十四A及圖十四B係繪示本發明之氣體產生器之冷凝過濾器於圖十A中所示實施例之俯視圖及沿該俯視圖之C-C線剖設之剖面圖。 14A and FIG. 14B are plan views showing the condensing filter of the gas generator of the present invention in the embodiment shown in FIG. 10A and a cross-sectional view taken along line C-C of the plan view.

圖十五A及圖十五B係繪示本發明之氣體產生器於第十四具體實施例中之不同視角的示意圖。 Figures 15A and 15B are schematic views showing different angles of view of the gas generator of the present invention in the fourteenth embodiment.

圖十六係繪示圖十五A所示實施例中僅具有濕化裝置的示意圖。 Figure 16 is a schematic view showing only the humidifying device in the embodiment shown in Figure 15A.

圖十七係繪示本發明之氣體產生器於第五具體實施例中的示意圖。 Figure 17 is a schematic view showing the gas generator of the present invention in a fifth embodiment.

圖十八A及圖十八B係繪示本發明之氣體產生器於第十五具體實施例中之不同視角的示意圖。 18A and 18B are schematic views showing different angles of view of the gas generator of the present invention in the fifteenth embodiment.

圖十九係繪示本發明之氣體產生器於圖十八A中所示實施例中之後視圖。 Figure 19 is a rear elevational view of the gas generator of the present invention in the embodiment shown in Figure 18A.

圖二十A及圖二十B係繪示圖十八A所示實施例中僅具有冷凝過濾器及水箱蓋體之俯視圖及沿該俯視圖之D-D線剖設之剖面圖。 20A and 20B are plan views showing only a condensing filter and a water tank cover in the embodiment shown in FIG. 18A, and a cross-sectional view taken along line D-D of the plan view.

關於本發明的優點,精神與特徵,將以實施例並參照所附圖式,進行詳細說明與討論。 The advantages, spirits and features of the present invention will be described and discussed in detail by reference to the accompanying drawings.

為了讓本發明的優點,精神與特徵可以更容易且明確地了解,後續將以實施例並參照所附圖式進行詳述與討論。值得注意的是,這些實施例僅為本發明代表性的實施例,其中所舉例的特定方法,裝置,條 件,材質等並非用以限定本發明或對應的實施例。 For the sake of the advantages and spirit of the invention, the spirit and the features may be more easily and clearly understood, and the detailed description and discussion will be made by way of example and with reference to the accompanying drawings. It should be noted that these embodiments are merely representative embodiments of the present invention, in which specific methods, devices, and strips are exemplified The components, materials, and the like are not intended to limit the invention or the corresponding embodiments.

首先,本發明提出一種氣體產生器,其為一種防爆式氣體產生器。請參閱圖一A、圖一B、圖二A及圖二B,圖一A及圖一B係繪示本發明之氣體產生器於第一具體實施例中之不同視角的示意圖,圖二A及圖二B為圖一A所示實施例中僅具水箱上蓋及電解裝置組合時之不同視角的示意圖,如圖所示,於第一實施例中,本發明氣體產生器1包含有水箱2以及電解裝置3。水箱2容置有一電解水W,電解裝置3設置於水箱2內,用以電解該電解水W以產生一氫氧混合氣體G。其中,當電解裝置3開始電解電解水W時,電解水W係充滿於水箱2以及電解裝置3而處於滿水位,當電解裝置3電解電解水W後,電解水W填充水箱2以及電解裝置3之水位高於滿水位之90%。以下將對本發明之各個元件之設計先分別進行說明。 First, the present invention proposes a gas generator which is an explosion-proof gas generator. Please refer to FIG. 1A, FIG. 1B, FIG. 2A and FIG. 2B. FIG. 1A and FIG. 1B are schematic diagrams showing different angles of view of the gas generator of the present invention in the first embodiment, FIG. 2B is a schematic view showing different viewing angles of the water tank upper cover and the electrolysis device in the embodiment shown in FIG. A. As shown in the figure, in the first embodiment, the gas generator 1 of the present invention includes a water tank 2 And an electrolysis device 3. The water tank 2 houses an electrolyzed water W, and the electrolysis device 3 is disposed in the water tank 2 for electrolyzing the electrolyzed water W to generate a hydrogen-oxygen mixed gas G. When the electrolysis device 3 starts to electrolyze the electrolysis water W, the electrolyzed water W is filled in the water tank 2 and the electrolysis device 3 to be at a full water level, and after the electrolysis device 3 electrolyzes the electrolysis water W, the electrolyzed water W fills the water tank 2 and the electrolysis device 3 The water level is higher than 90% of the full water level. The design of each component of the present invention will be separately described below.

首先,本發明所採用之水箱2具有一第一中空部20以及一導管22。水箱2之第一中空部20係適於容納一電解水W。電解水W主要成份為純水,視需要可以添加少量的電解質,如氫氧化鈉、碳酸鈣、氯化鈉等。水箱2之導管22與水箱2之第一中空部20係相互連通,用以輸出由電解裝置3所產生之氫氧混合氣體G以及補充輸入該電解水W至水箱2內。 First, the water tank 2 used in the present invention has a first hollow portion 20 and a duct 22. The first hollow portion 20 of the water tank 2 is adapted to accommodate an electrolyzed water W. The main component of the electrolyzed water W is pure water, and a small amount of electrolyte such as sodium hydroxide, calcium carbonate, sodium chloride or the like may be added as needed. The duct 22 of the water tank 2 and the first hollow portion 20 of the water tank 2 are in communication with each other for outputting the hydrogen-oxygen mixed gas G generated by the electrolysis device 3 and replenishing the electrolyzed water W into the water tank 2.

更進一步地,請參閱圖三A及圖三B,圖三A及圖三B係繪示本發明之氣體產生器之水箱於圖一A所示具體實施例中不同視角的爆炸圖。於本實施例中,水箱2另包含有一水箱槽體24及一水箱蓋體26。 Further, please refer to FIG. 3A and FIG. 3B. FIG. 3A and FIG. 3B are exploded views showing different angles of view of the water tank of the gas generator of the present invention in the specific embodiment shown in FIG. In the embodiment, the water tank 2 further includes a water tank body 24 and a water tank cover 26.

水箱槽體24大致分為一第一底座240及一第一壁部242。第一壁部242係自第一底座240的內表面往其法向量方向往外延伸而成,而第一壁部242係圍設有第一中空部20,該第一中空部20相對於第一底座240之另 一端係具有一第一開口部244。同時,而第一壁部242相對於第一底座240的另一側係具有一第一側緣248,而該第一側緣248則圍繞前述的第一開口部244。更進一步地,水箱2之水箱槽體24另包含一出水口249a及一入水口249b。於本實施例中,水箱槽體24之出水口249a係連通水箱槽體24之第一壁部242相對於電解裝置3方向的二表面,以及水箱槽體24之入水口249b係連通水箱槽體24之第一壁部242相對於電解裝置3方向的二表面。其中,水箱槽體24之出水口249a與水箱槽體24之入水口249b係藉由第一中空部20連通。水箱槽體24之出水口249a及一入水口249b得用以供一水泵裝置與水箱2之第一中空部20相互連通。 The water tank body 24 is roughly divided into a first base 240 and a first wall portion 242. The first wall portion 242 extends outward from the inner surface of the first base 240 toward the normal vector direction, and the first wall portion 242 is surrounded by the first hollow portion 20, the first hollow portion 20 is opposite to the first portion Another base 240 One end has a first opening portion 244. At the same time, the first wall portion 242 has a first side edge 248 opposite to the other side of the first base 240, and the first side edge 248 surrounds the first opening portion 244. Further, the water tank body 24 of the water tank 2 further includes a water outlet 249a and a water inlet 249b. In the present embodiment, the water outlet 249a of the water tank body 24 communicates with the two surfaces of the first wall portion 242 of the water tank body 24 in the direction of the electrolysis device 3, and the water inlet 249b of the water tank body 24 communicates with the water tank body. The first wall portion 242 of 24 is opposite to the two surfaces of the electrolysis device 3. The water outlet 249a of the water tank body 24 and the water inlet 249b of the water tank body 24 communicate with each other through the first hollow portion 20. The water outlet 249a and a water inlet 249b of the water tank body 24 are used to allow a water pump device to communicate with the first hollow portion 20 of the water tank 2.

水箱蓋體26大致分為一第二底座260及一第二壁部262。第二壁部262係自第二底座260的內表面往其法向量方向往外延伸而成,而第二壁部262係圍設有一第二中空部264,第二中空部264相對於第二底座260之另一端係具有一第二開口部266。水箱蓋體26得藉由第二開口部266來將水箱槽體24之第一側緣248蓋設於第二中空部264中。導管22得設置於水箱蓋體26之第二底座260上並連通水箱蓋體26之第二底座260相對於水箱槽體24方向的二表面,惟其不以此為限,於實際應用時,導管22亦可以由一導孔或其他具有輸出/輸入功能之元件所取代。水箱蓋體26另包含有複數個蓋孔(如圖十A所示),複數個蓋孔連通水箱蓋體26之第二底座260相對於水箱槽體24方向的二表面,用以供電解裝置3之電極柱貫穿並設置於電解裝置3,或者用以供檢測裝置(如流量偵測器、水位計、安全閥)貫穿並設置於其上。 The water tank cover 26 is roughly divided into a second base 260 and a second wall portion 262. The second wall portion 262 extends outwardly from the inner surface of the second base 260 toward the normal vector direction, and the second wall portion 262 is surrounded by a second hollow portion 264, and the second hollow portion 264 is opposite to the second base portion. The other end of the 260 has a second opening 266. The water tank cover 26 has a second opening 266 for covering the first side edge 248 of the water tank body 24 in the second hollow portion 264. The conduit 22 is disposed on the second base 260 of the water tank cover 26 and communicates with the two surfaces of the second base 260 of the water tank cover 26 in the direction of the water tank body 24, but not limited thereto. In practical applications, the conduit 22 may also be replaced by a via or other component having an output/input function. The water tank cover 26 further includes a plurality of cover holes (as shown in FIG. 10A), and the plurality of cover holes communicate with the two surfaces of the second base 260 of the water tank cover 26 in the direction of the water tank body 24 for supplying power to the device. The electrode column of 3 is penetrated and disposed in the electrolysis device 3, or is used for a detection device (such as a flow detector, a water level gauge, a safety valve) to be penetrated and disposed thereon.

更進一步地,於本實施例中,水箱2另包含有一密封墊28,其係設置於水箱槽體24及水箱蓋體26之間,用以使水箱槽體24與水箱蓋體 26緊密結合。密封墊28具有一第三開口部280。當密封墊28設置於水箱槽體24及水箱蓋體26之間時,密封墊28之第三開口部280係將複數個蓋孔261及第二開口部266圍設於其中。水箱槽體24及密封墊28之相對應表面更得分別具有一第一嵌合結構246及相對應的第三嵌合結構282且其二者得以相互嵌合。第一嵌合結構246係將第一開口部244圍設於其中。第三嵌合結構282係將第三開口部280圍設於其中。 Further, in the embodiment, the water tank 2 further includes a gasket 28 disposed between the water tank body 24 and the water tank cover 26 for the water tank body 24 and the water tank cover. 26 tightly combined. The gasket 28 has a third opening portion 280. When the gasket 28 is disposed between the water tank body 24 and the water tank cover 26, the third opening portion 280 of the gasket 28 encloses the plurality of cover holes 261 and the second opening portion 266 therein. The corresponding surfaces of the water tank body 24 and the gasket 28 respectively have a first fitting structure 246 and a corresponding third fitting structure 282 and the two are fitted to each other. The first fitting structure 246 encloses the first opening portion 244 therein. The third fitting structure 282 surrounds the third opening portion 280 therein.

接著,請參閱圖四A及圖四B,圖四A及圖四B係繪示本發明氣體產生器之電解裝置於圖一A所示實施例中不同視角的爆炸圖。電解裝置3包含一電解槽體32、複數個電極34、墊板36、上蓋體37以及下蓋體38。其中複數個電極34分別間隔設置於電解槽體32之內並形成複數個電極流道S1。墊板36設置於每一電極34之上表面。上蓋體37蓋設於墊板36相對於電解槽體32之另一端。下蓋體38蓋設於電解槽體32之下表面相對於上蓋體37之另一端。 Next, please refer to FIG. 4A and FIG. 4B. FIG. 4A and FIG. 4B are exploded views showing different angles of view of the electrolysis apparatus of the gas generator of the present invention in the embodiment shown in FIG. The electrolysis device 3 includes an electrolytic cell body 32, a plurality of electrodes 34, a backing plate 36, an upper cover 37, and a lower cover 38. A plurality of electrodes 34 are respectively disposed in the electrolytic cell body 32 at intervals and form a plurality of electrode flow paths S1. A backing plate 36 is provided on the upper surface of each of the electrodes 34. The upper cover 37 is disposed on the other end of the backing plate 36 with respect to the electrolytic cell body 32. The lower cover 38 is disposed on the lower surface of the electrolytic cell body 32 opposite to the other end of the upper cover 37.

更進一步地,請參閱圖五A及五B,圖五A及圖五B係繪示本發明之氣體產生器之水箱槽體及電解裝置於圖三A中所示實施例之實施例之俯視圖及沿該俯視圖之A-A線剖設之剖面圖。電解裝置另具有一隔板30。隔板30係自電解槽體相對於水箱2的側表面往其法向量方向往外延伸而成,用以將水箱2之第一中空部20分隔成一上部200及一下部202。隔板30包含一連通孔300。連通孔300連通隔板30相對於水箱槽體24之第一底座240方向的二表面。第一中空部20之上部200及下部202係藉由連通孔相互連通。惟連通孔之設計不以本實施所繪示為限,於實際應用時,連通孔的數量或外型皆得視使用上實際需求自行選用設計。 Further, please refer to FIG. 5A and FIG. 5B. FIG. 5A and FIG. 5B are plan views showing the embodiment of the embodiment of the water tank body and the electrolysis device of the gas generator of the present invention shown in FIG. And a cross-sectional view taken along line AA of the top view. The electrolysis unit additionally has a separator 30. The partition 30 extends from the side surface of the electrolytic tank body toward the normal vector direction with respect to the side surface of the water tank 2, and partitions the first hollow portion 20 of the water tank 2 into an upper portion 200 and a lower portion 202. The partition 30 includes a communication hole 300. The communication hole 300 communicates with the two surfaces of the partition plate 30 with respect to the first base 240 of the water tank body 24. The upper portion 200 and the lower portion 202 of the first hollow portion 20 are in communication with each other by a communication hole. However, the design of the communication hole is not limited to the description of the present embodiment. In practical applications, the number or shape of the communication holes may be selected according to the actual needs of the use.

接著,請參閱圖六,圖六為圖一A所示實施例中僅具電解槽體、隔板及電極組合時之不同視角的示意圖。電解槽體32大致分為一第四底座320及一第四壁部322。第四壁部322係自第四底座320的內表面往其法向量方向往外延伸而成,而第四壁部322係圍設有該第四中空部324,第四中空部324相對於第四底座320之另一端係具有一第四開口部326。第四中空部324適於容納有該電解水W。另外,為了表達本發明電解槽體之設計,於圖六中係刻意地省略有其中之複數個電極,然而,在實際應用時,得視使用上實際需求自行選用設計。 Next, please refer to FIG. 6. FIG. 6 is a schematic view of different viewing angles of the embodiment shown in FIG. 1A with only the electrolytic cell body, the separator and the electrode combination. The electrolytic cell body 32 is roughly divided into a fourth base 320 and a fourth wall portion 322. The fourth wall portion 322 extends outward from the inner surface of the fourth base 320 in the direction of the normal vector, and the fourth wall portion 322 is surrounded by the fourth hollow portion 324, and the fourth hollow portion 324 is opposite to the fourth portion. The other end of the base 320 has a fourth opening portion 326. The fourth hollow portion 324 is adapted to accommodate the electrolyzed water W. In addition, in order to express the design of the electrolytic cell body of the present invention, a plurality of electrodes are deliberately omitted in FIG. 6, however, in practical applications, the design is selected according to actual needs.

接著,請參閱圖五A、圖五B、圖六、圖七A及圖七B,圖七A及圖七B係繪示本發明之氣體產生器之水箱槽體及電解裝置於圖三A中所示實施例之俯視圖及沿該俯視圖之B-B線剖設之剖面圖。於本實施例中,電解槽體32之下表面即為電解槽體32之第四底座320。電解槽體32之第四底座320具有複數個下穿孔3202。複數個下穿孔3202連通電解槽體32之第四底座320相對於水箱槽體24之第一底座240方向的二表面。電解槽體32之第四底座320另具有複數個凹槽3204。複數個凹槽3204係自電解槽體32之第四底座320相對於第四開口部326之表面沿法向量方向往內延伸而成。每個凹槽3204係間隔地位於下穿孔3202與相鄰之下穿孔3202之間。複數個凹槽3204得用以放置電極34。同時,電解槽體32之第四壁部322另具有複數個固定柱3220。複數個固定柱3220係自第四壁部322相對於複數個下穿孔3202之表面往其法向量方向往外延伸而成。固定柱3220與相鄰之固定柱3220得用以固定放置於凹槽3204之電極34。當複數個電極34分別間隔設置於電解槽體32之凹槽3204內並固定於固定柱3220與相鄰之固定柱3220之間時,電解槽體 32之內會形成複數個電極流道S1。其中每一電極流道S1得各自獨立地藉由所對應之下穿孔3202與第一中空部20之下部202連通。 Next, please refer to FIG. 5A, FIG. 5B, FIG. 6 , FIG. 7A and FIG. 7B. FIG. 7A and FIG. 7B show the water tank body and the electrolysis device of the gas generator of the present invention in FIG. 3A. A plan view of the embodiment shown in the drawings and a cross-sectional view taken along line BB of the plan view. In the present embodiment, the lower surface of the electrolytic cell body 32 is the fourth base 320 of the electrolytic cell body 32. The fourth base 320 of the electrolytic cell body 32 has a plurality of lower perforations 3202. The plurality of lower perforations 3202 communicate with the two surfaces of the fourth base 320 of the electrolytic cell body 32 with respect to the first base 240 of the water tank body 24. The fourth base 320 of the electrolytic cell body 32 further has a plurality of grooves 3204. A plurality of grooves 3204 extend from the surface of the fourth base 320 of the electrolytic cell body 32 in the direction of the normal vector with respect to the surface of the fourth opening portion 326. Each groove 3204 is spaced between the lower perforation 3202 and the adjacent lower perforation 3202. A plurality of grooves 3204 are provided for placing the electrodes 34. At the same time, the fourth wall portion 322 of the electrolytic cell body 32 further has a plurality of fixing posts 3220. A plurality of fixing posts 3220 are formed from the fourth wall portion 322 with respect to the surface of the plurality of lower perforations 3202 extending outward in the direction of the normal vector. The fixing post 3220 and the adjacent fixing post 3220 are used to fix the electrode 34 placed on the recess 3204. When a plurality of electrodes 34 are respectively disposed in the grooves 3204 of the electrolytic cell body 32 and fixed between the fixing column 3220 and the adjacent fixing column 3220, the electrolytic cell body A plurality of electrode flow paths S1 are formed within 32. Each of the electrode flow paths S1 is independently connected to the lower portion 202 of the first hollow portion 20 by the corresponding lower perforations 3202.

墊板36具有複數個上穿孔360。複數個上穿孔360係連通墊板36相對於電解槽體32方向的二表面。更進一步地,每一電極流道S1亦得各自獨立地藉由所對應之上穿孔360與第一中空部20之上部200連通。 The backing plate 36 has a plurality of upper perforations 360. A plurality of upper perforations 360 are connected to the two surfaces of the pad 36 in the direction of the electrolytic cell 32. Further, each of the electrode flow channels S1 is also independently connected to the upper portion 200 of the first hollow portion 20 by the corresponding upper through holes 360.

複數個電極34包含有一陰極片340、一陽極片342及複數個雙極性電極片344。複數個雙極性電極片344係間隔設置於陰極片340及陽極片342之間。於本實施例中,電解裝置3另包含兩電極柱33,用以個別地鎖固陽極片342及陰極片340於水箱蓋體26上,以將電解裝置3懸空地固設於水箱2內。更進一步地,於本實施例中,氣體產生器1另包含一電源(未繪示於圖中)。陰極片340得連接於電源之負極,陽極片342得連接於電源之正極。 The plurality of electrodes 34 includes a cathode sheet 340, an anode sheet 342, and a plurality of bipolar electrode sheets 344. A plurality of bipolar electrode sheets 344 are spaced apart between the cathode sheet 340 and the anode sheet 342. In the present embodiment, the electrolysis device 3 further includes two electrode columns 33 for individually locking the anode piece 342 and the cathode piece 340 on the water tank cover 26 to fix the electrolysis device 3 in the water tank 2 in a suspended manner. Further, in the embodiment, the gas generator 1 further includes a power source (not shown). The cathode piece 340 is connected to the negative electrode of the power source, and the anode piece 342 is connected to the positive electrode of the power source.

上蓋體37包含至少一第一流道370。如圖四B所示,第一流道370係自上蓋體37相對於墊板36之表面沿法向量方向往內延伸而成。位於墊板36之複數個上穿孔360與第一中空部20係藉由該至少一第一流道370相互連通。 The upper cover 37 includes at least one first flow path 370. As shown in FIG. 4B, the first flow path 370 is formed inwardly from the upper cover body 37 with respect to the surface of the backing plate 36 in the normal vector direction. The plurality of upper perforations 360 located in the backing plate 36 and the first hollow portion 20 are in communication with each other by the at least one first flow path 370.

下蓋體38包含至少一第二流道380。如圖四A所示,第二流道380係自下蓋體38相對於電解槽體32之第四底座320之表面沿法向量方向往內延伸而成。位於電解槽體32之第四底座320之複數個下穿孔3202與該第一中空部20係藉由該至少一第二流道380相互連通。 The lower cover 38 includes at least one second flow path 380. As shown in FIG. 4A, the second flow path 380 is formed inwardly from the lower cover 38 with respect to the surface of the fourth base 320 of the electrolytic cell 32 in the direction of the normal vector. A plurality of lower perforations 3202 located at the fourth base 320 of the electrolytic cell body 32 and the first hollow portion 20 are in communication with each other by the at least one second flow path 380.

更進一步地,請先參閱圖八,圖八係繪示本發明之氣體產生器於第二具體實施例中的示意圖。於第二具體實施例中,本發明之氣體產生器1另包含一水泵裝置5(於圖八中僅以虛線繪示)。水泵裝置5得用以強制 循環容置於第一中空部20及電解裝置3內之電解水W。水泵裝置5包含一入水管50及一出水管52。水泵裝置5之出水管52用以供水泵裝置5與該水箱2之入水口249b相互連接。水泵裝置5之入水管50用以供水泵裝置5與該水箱2之出水口249a相互連接。 Further, please refer to FIG. 8 , which is a schematic diagram of the gas generator of the present invention in a second embodiment. In a second embodiment, the gas generator 1 of the present invention further comprises a water pump device 5 (shown only in phantom in Figure 8). Pump unit 5 is used to force The electrolyzed water W accommodated in the first hollow portion 20 and the electrolysis device 3 is circulated. The water pump device 5 includes an inlet pipe 50 and an outlet pipe 52. The water outlet pipe 52 of the water pump device 5 is used to connect the water supply pump device 5 to the water inlet 249b of the water tank 2. The water inlet pipe 50 of the water pump device 5 is used to connect the water supply pump device 5 to the water outlet 249a of the water tank 2.

更進一步地,於第三具體實施例中,本發明之氣體產生器1另包含一霧化/揮發氣體混合槽4(如圖十五A所示)。霧化/揮發氣體混合槽4得連接於電解裝置3,用以接收氫氧混合氣體G。霧化/揮發氣體混合槽4能產生一霧化氣體G2與氫氧混合氣體G混合,以形成一保健氣體供該使用者吸入。於實際應用時,霧化氣體G2得選自於由水蒸汽,霧化藥水,揮發精油及其組合,所組成之族群中的一種。 Further, in the third embodiment, the gas generator 1 of the present invention further comprises an atomizing/volatile gas mixing tank 4 (as shown in Fig. 15A). The atomizing/volatile gas mixing tank 4 is connected to the electrolysis device 3 for receiving the hydrogen-oxygen mixed gas G. The atomizing/volatile gas mixing tank 4 can generate an atomizing gas G2 mixed with the hydrogen-oxygen mixed gas G to form a health care gas for inhalation by the user. In practical applications, the atomizing gas G2 is selected from the group consisting of water vapor, atomized syrup, volatile essential oil, and combinations thereof.

以上,在對各個元件的個別設計進行說明後,以下將對一種氣體產生器之各元件的組合方式以及其應用進行描述。 In the above, after the individual design of each component is described, the combination of the components of a gas generator and its application will be described below.

於組裝完成之電解裝置3中,複數個電極34分別間隔設置於電解槽體32,墊板36設置於每一電極34之上表面,上蓋體37蓋設於墊板36相對於電解槽體32之另一端,下蓋體38蓋設於電解槽體32之下表面相對於上蓋體37之另一端。 In the assembled electrolysis device 3, a plurality of electrodes 34 are respectively disposed at intervals on the electrolytic cell body 32. The backing plate 36 is disposed on the upper surface of each of the electrodes 34, and the upper cover 37 is disposed on the backing plate 36 relative to the electrolytic cell body 32. At the other end, the lower cover 38 is disposed on the lower surface of the electrolytic cell body 32 with respect to the other end of the upper cover 37.

於組裝完成之水箱2及電解裝置3中,組裝完後之電解裝置3之陽極片342及陰極片340分別地藉由兩電極柱33鎖固於水箱蓋體26上。而檢測裝置(如流量偵測器82)被貫穿於水箱蓋體26之複數個蓋孔261並設置於水箱蓋體26上。密封墊28被設置於水箱槽體24,並藉由密封墊28之第三嵌合結構282及水箱槽體24之第一嵌合結構246相互嵌合。水箱槽體24之第一側緣248藉由水箱蓋體26之第二開口部266被蓋設於水箱蓋體26之第二中空 部264中,以將水箱槽體24與水箱蓋體26緊密結合,並將電解裝置3懸空地固設於水箱2內。其中,水箱2之第一中空部20與電解裝置3係相互連通的。 In the assembled water tank 2 and the electrolysis device 3, the anode piece 342 and the cathode piece 340 of the assembled electrolysis device 3 are respectively locked to the tank cover 26 by the two electrode columns 33. The detecting device (such as the flow detector 82) is inserted through the plurality of cover holes 261 of the tank cover 26 and disposed on the tank cover 26. The gasket 28 is disposed in the water tank body 24 and is fitted to each other by the third fitting structure 282 of the gasket 28 and the first fitting structure 246 of the water tank body 24. The first side edge 248 of the water tank body 24 is covered by the second opening portion 266 of the water tank cover 26 in the second hollow of the water tank cover 26 In the portion 264, the tank body 24 and the tank lid 26 are tightly coupled, and the electrolyzer 3 is suspended in the tank 2 in a suspended manner. The first hollow portion 20 of the water tank 2 and the electrolysis device 3 are in communication with each other.

接著,於組裝完成之水箱2、電解裝置3及水泵裝置5中,水箱2與水泵裝置5係藉由水泵裝置5之出水管52和水箱5之入水口249a之連接以及水泵裝置5之入水管50和水箱5之出水口249a之連接以相互連通。更進一步地,於第三實施例中,霧化/揮發氣體混合槽4係連接電解裝置3。 Next, in the assembled water tank 2, the electrolysis device 3, and the water pump device 5, the water tank 2 and the water pump device 5 are connected by the water outlet pipe 52 of the water pump device 5 and the water inlet 249a of the water tank 5, and the water inlet pipe of the water pump device 5. 50 is connected to the water outlet 249a of the water tank 5 to communicate with each other. Further, in the third embodiment, the atomizing/volatile gas mixing tank 4 is connected to the electrolysis device 3.

於實際應用時,水箱2容置有一電解水W,電解裝置3設置於水箱2內,用以電解該電解水W以產生一氫氧混合氣體G。產生於電極流道S1之氫氧混合氣體G經由所對應之墊板36之上穿孔360以及所對應之上蓋體37之第一流道370輸入至第一中空部20。輸入至第一中空部20之氫氧混合氣體G進一步地經由水箱2之導管22輸出,並得供使用者吸入,惟不以此為限,於實際應用時,輸入至第一中空部20之氫氧混合氣體G能進一步地與經由霧化/揮發氣體混合槽4產生之霧化氣體G2混合,以形成保健氣體供使用者吸入。 In practical application, the water tank 2 houses an electrolyzed water W, and the electrolysis device 3 is disposed in the water tank 2 for electrolyzing the electrolyzed water W to generate a hydrogen-oxygen mixed gas G. The hydrogen-oxygen mixed gas G generated in the electrode flow path S1 is input to the first hollow portion 20 via the perforation 360 above the corresponding pad 36 and the first flow path 370 of the corresponding upper cover 37. The hydrogen-oxygen mixed gas G input to the first hollow portion 20 is further outputted through the conduit 22 of the water tank 2, and is for the user to inhale, but not limited thereto, and is input to the first hollow portion 20 in practical use. The hydrogen-oxygen mixed gas G can be further mixed with the atomizing gas G2 generated via the atomizing/volatile gas mixing tank 4 to form a health care gas for the user to inhale.

另外,當電解裝置3暫停電解電解水W以產生氫氧混合氣體G時,導管22可以用來補充輸入電解水W,以使電解水W充滿第一中空部20以及電解裝置3。補充輸入第一中空部20之電解水W得經由電解裝置3之下蓋體38之第二流道380以及複數個下穿孔3202輸入至所對應之電極流道S1,以提供電解裝置3電解時所需之電解水W。其中,當電解裝置3開始電解電解水W時,電解水W係充滿於水箱2以及電解裝置3而處於滿水位。當電解裝置3電解電解水W後,電解水W填充水箱2以及電解裝置3之水位仍高於滿水位之90%。於實務上,本發明氣體產生器係藉由水位計偵測容置於水箱 之第一中空部以及電解裝置內之水位,以控制電解水的補充與否,使電解水填充水箱之第一中空部以及電解裝置之水位介於滿水位之90%至99.99%之間。因此本發明氣體產生器之設計能避免氣腔存在於水箱內,更可以使電解裝置的溫度降低,從而降低了高溫氣爆的風險而提高其安全性。 Further, when the electrolysis device 3 suspends the electrolytic electrolysis water W to generate the hydrogen-oxygen mixed gas G, the conduit 22 can be used to supplement the input electrolysis water W so that the electrolyzed water W fills the first hollow portion 20 and the electrolysis device 3. The electrolyzed water W added to the first hollow portion 20 is input to the corresponding electrode flow path S1 via the second flow path 380 of the lower cover 38 of the electrolysis device 3 and a plurality of lower perforations 3202 to provide electrolysis device 3 during electrolysis. The required electrolyzed water W. Here, when the electrolysis device 3 starts to electrolyze the electrolysis water W, the electrolyzed water W is filled in the water tank 2 and the electrolysis device 3 to be in a full water level. When the electrolysis device 3 electrolyzes the electrolyzed water W, the water level of the electrolyzed water W filling the water tank 2 and the electrolysis device 3 is still higher than 90% of the full water level. In practice, the gas generator of the present invention is detected by a water level gauge and placed in a water tank. The first hollow portion and the water level in the electrolysis device control the replenishment of the electrolyzed water so that the water level of the first hollow portion of the electrolyzed water filling tank and the electrolysis device is between 90% and 99.99% of the full water level. Therefore, the gas generator of the present invention is designed to prevent the air chamber from being present in the water tank, and the temperature of the electrolysis device can be lowered, thereby reducing the risk of high temperature gas explosion and improving its safety.

另外,水箱2之第一中空部20更進一步地與水泵裝置5相互連通。水泵裝置5能用以強制循環容置於第一中空部20及電解裝置3內之電解水W。位於第一中空部20之上部200與下部202之電解水係經由連通孔300進行循環。其中,當電解裝置電解電解水W後,電解水W填充水箱2之第一中空部20以及電解裝置3之水位介於滿水位之90%至99.99%之間。更進一步地,本發明氣體產生器之設計能藉由強制循環容置於第一中空部及電解裝置內之電解水,使水箱內的氣腔趨近於零,以避免水箱中氫氧氣的壓力或者儲存量,造成氣爆。 Further, the first hollow portion 20 of the water tank 2 is further in communication with the water pump device 5. The water pump device 5 can be used to forcibly circulate the electrolyzed water W accommodated in the first hollow portion 20 and the electrolysis device 3. The electrolyzed water located at the upper portion 200 and the lower portion 202 of the first hollow portion 20 is circulated through the communication hole 300. Wherein, when the electrolysis device electrolyzes the electrolyzed water W, the water level of the first hollow portion 20 of the electrolysis water W filling the water tank 2 and the electrolysis device 3 is between 90% and 99.99% of the full water level. Furthermore, the gas generator of the present invention is designed to positively circulate the electrolyzed water contained in the first hollow portion and the electrolysis device, so that the gas chamber in the water tank approaches zero to avoid the pressure of hydrogen and oxygen in the water tank. Or the amount of storage, causing a gas explosion.

另外,流量偵測器82耦接電解裝置3,以偵測氫氧混合氣體G的流量,並藉以控制電解裝置3中氫氧混合氣體G的產出量。其中流量偵測器82可以選擇性地切斷電解裝置3與電源(未繪示於圖中)之電連接。 In addition, the flow rate detector 82 is coupled to the electrolysis device 3 to detect the flow rate of the hydrogen-oxygen mixed gas G, and thereby control the output amount of the hydrogen-oxygen mixed gas G in the electrolysis device 3. The flow detector 82 can selectively cut off the electrical connection between the electrolysis device 3 and a power source (not shown).

綜上所述,本發明中電解裝置設置於水箱之設計能節省空間,同時電解裝置產生之氫氧混合氣體藉由充滿於水箱之第一中空部以及電解裝置的電解水,可以避免氣腔存在於水箱內,亦可以使電解裝置的溫度降低,從而防止氣爆之發生。再者,本發明中電解裝置的氣體出口與入水口設計,使得水箱中的電解水可以補充至電解裝置,而電解裝置所產生的氫氧混合氣體可以排出至水箱,達成氣水循環。更進一步地,本發明中,水泵裝置、水箱與電解裝置相互連通之結構設計,能使容置於第一中空部 及電解裝置內之電解水進行強制循環,使水箱內的氣腔趨近於零,以防止氣爆之發生。 In summary, the design of the electrolysis device in the water tank of the present invention can save space, and the hydrogen-oxygen mixed gas generated by the electrolysis device can avoid the existence of the gas cavity by filling the first hollow portion of the water tank and the electrolyzed water of the electrolysis device. In the water tank, the temperature of the electrolysis device can also be lowered to prevent the occurrence of gas explosion. Furthermore, the gas outlet and the water inlet of the electrolysis device of the present invention are designed such that the electrolyzed water in the water tank can be replenished to the electrolysis device, and the hydrogen-oxygen mixed gas generated by the electrolysis device can be discharged to the water tank to achieve a gas-water cycle. Further, in the present invention, the water pump device, the water tank and the electrolysis device are connected to each other in a structural design, and can be accommodated in the first hollow portion. The electrolyzed water in the electrolyzer is forcibly circulated, so that the air chamber in the water tank approaches zero to prevent gas explosion.

請參閱圖十七。於第四具體實施例中,本發明另提出一種氣體產生器,其為一種具有調控電解水溫度及冷卻產生氫氧混合氣體後之電解水的功效之氣體產生器。於本實施中,氣體產生器1包含一電解裝置(未繪示於圖中)、水泵裝置5以及一冷卻裝置7。電解裝置3容置有一電解水W。電解裝置3用以電解電解水W以產生一氫氧混合氣體G。冷卻裝置7連接於電解裝置3,用以冷卻產生氫氧混合氣體G後之電解水W。水泵裝置5連接於冷卻裝置7與電解裝置3之間,用以強制循環電解水W。 Please refer to Figure 17. In a fourth embodiment, the present invention further provides a gas generator which is a gas generator having the effect of regulating the temperature of the electrolyzed water and cooling the electrolyzed water after the hydrogen-oxygen mixed gas is produced. In the present embodiment, the gas generator 1 includes an electrolysis device (not shown), a water pump device 5, and a cooling device 7. The electrolysis device 3 houses an electrolyzed water W. The electrolysis device 3 is for electrolytically electrolyzing water W to produce a hydrogen-oxygen mixed gas G. The cooling device 7 is connected to the electrolysis device 3 for cooling the electrolyzed water W after the generation of the hydrogen-oxygen mixed gas G. The water pump device 5 is connected between the cooling device 7 and the electrolysis device 3 for forcibly circulating the electrolyzed water W.

請參閱圖十七,圖十七係繪示本發明之氣體產生器於第五具體實施例中的示意圖。於第五具體實施例中,本發明之氣體產生器1另包含一水箱2。水箱2具有一第一中空部20及導管22(於圖十七中僅以虛線表示)。水箱2之第一中空部20容置有電解水W。電解裝置3係設置於水箱2之第一中空部20之內,第一中空部20與電解裝置3係相互連通。 Referring to FIG. 17, FIG. 17 is a schematic view showing the gas generator of the present invention in a fifth embodiment. In a fifth embodiment, the gas generator 1 of the present invention further comprises a water tank 2. The water tank 2 has a first hollow portion 20 and a duct 22 (shown only in phantom in Figure 17). The first hollow portion 20 of the water tank 2 houses the electrolyzed water W. The electrolysis device 3 is disposed inside the first hollow portion 20 of the water tank 2, and the first hollow portion 20 and the electrolysis device 3 are in communication with each other.

更進一步地,於第六具體實施例中,本發明之氣體產生器1另包含一霧化/揮發氣體混合槽4(如圖十五A所示)。霧化/揮發氣體混合槽4能產生霧化氣體G2與氫氧混合氣體G混合,以形成保健氣體供該使用者吸入。 Further, in the sixth embodiment, the gas generator 1 of the present invention further comprises an atomizing/volatile gas mixing tank 4 (as shown in Fig. 15A). The atomizing/volatile gas mixing tank 4 can generate an atomizing gas G2 mixed with the hydrogen-oxygen mixed gas G to form a health gas for inhalation by the user.

以下將對本發明之各個元件之設計先分別進行說明。 The design of each component of the present invention will be separately described below.

首先,由於水箱2、電解裝置3、水泵裝置5及霧化/揮發氣體混合槽4之結構設計已於前面進行說明,故不在此再贅述。 First, since the structural design of the water tank 2, the electrolysis device 3, the water pump device 5, and the atomization/volatile gas mixing tank 4 has been described above, it will not be described again.

請參閱圖十五A、圖十五B及圖十七。於第四實施例中,本 發明之冷卻裝置7包含一散熱器70及一風扇72。散熱器70包含一箱體700及一散熱管702。散熱管702係分佈在散熱器70之箱體700之內。散熱管702的形狀為一蛇形管(未繪示於圖中),用以增加整體散熱面積進而提高散熱效率,惟不以此形狀為限,於實際應用時,其亦可以為一螺旋盤管。此外,於實際應用時,散熱管702得由銀、鋁、鐵、銅、銀合金、鋁合金、鐵合金、銅合金以上材料之一所製成。更進一步地,散熱器70包含一入口704及一出口706。散熱器70之入口704係連通該散熱器70之箱體700相對於散熱管702方向的二表面,以及散熱器70之出口706係連通該散熱器70之箱體700相對於散熱管702方向的二表面。其中,散熱器70之入口704及出口706係藉由散熱管702以相互連通。 Please refer to Figure 15A, Figure 15B and Figure 17. In the fourth embodiment, this The cooling device 7 of the invention comprises a heat sink 70 and a fan 72. The heat sink 70 includes a case 700 and a heat pipe 702. The heat pipe 702 is distributed within the casing 700 of the heat sink 70. The shape of the heat pipe 702 is a serpentine tube (not shown in the figure), which is used to increase the overall heat dissipation area and improve the heat dissipation efficiency. However, the shape of the heat pipe 702 is not limited to this shape, and may be a spiral disk in practical applications. tube. In addition, in practical applications, the heat pipe 702 is made of one of the above materials of silver, aluminum, iron, copper, silver alloy, aluminum alloy, iron alloy, and copper alloy. Further, the heat sink 70 includes an inlet 704 and an outlet 706. The inlet 704 of the radiator 70 is connected to the two surfaces of the casing 700 of the radiator 70 in the direction of the heat pipe 702, and the outlet 706 of the radiator 70 is connected to the casing 700 of the radiator 70 with respect to the direction of the heat pipe 702. Two surfaces. The inlet 704 and the outlet 706 of the heat sink 70 are connected to each other by the heat pipe 702.

更進一步地,於第四實施例中,本發明之氣體產生器1另包含一微電腦控制器(未繪示於圖中)。微電腦控制器係用以感測電解水W之溫度,並根據所感測之電解水W之溫度以控制水泵裝置5抽取及輸入之流速。另外,微電腦控制器包含一溫度感測器(未繪示於圖中)。溫度感測器係用以感測容置於電解裝置3中之電解水W之溫度。此外,微電腦控制器另包含一流量偵測器82。流量偵測器82用以偵測氫氧混合氣體G的流量,並藉以控制電解裝置3中氫氧混合氣體G的產出量。流量偵測器82可以選擇性地切斷電解裝置3與該電源之電連接(未繪示於圖中)。 Further, in the fourth embodiment, the gas generator 1 of the present invention further comprises a microcomputer controller (not shown). The microcomputer controller is for sensing the temperature of the electrolyzed water W and controlling the flow rate of the pumping device 5 to be extracted and input according to the sensed temperature of the electrolyzed water W. In addition, the microcomputer controller includes a temperature sensor (not shown). The temperature sensor is for sensing the temperature of the electrolyzed water W accommodated in the electrolysis device 3. In addition, the microcomputer controller further includes a traffic detector 82. The flow rate detector 82 is configured to detect the flow rate of the hydrogen-oxygen mixed gas G, and thereby control the output amount of the hydrogen-oxygen mixed gas G in the electrolysis device 3. The flow detector 82 can selectively cut off the electrical connection of the electrolysis device 3 to the power source (not shown).

以上,在對各個元件的個別設計進行說明後,以下將對各元件的組合方式以及其應用進行描述。 In the above, after the individual design of each component is described, the combination of each component and its application will be described below.

於組裝完成之水箱2及電解裝置3中,為將組裝完後之電解裝置3設置於水箱2的第一中空部20內,其中水箱2之第一中空部20與電解裝置 3係相互連通。另外,由於組裝完成之水箱2及電解裝置3之組合方式已於前面進行說明,故不在此再贅述。 In the assembled water tank 2 and the electrolysis device 3, in order to dispose the assembled electrolysis device 3 in the first hollow portion 20 of the water tank 2, wherein the first hollow portion 20 of the water tank 2 and the electrolysis device The 3 series are connected to each other. In addition, since the combination of the assembled water tank 2 and the electrolysis device 3 has been described above, it will not be described again.

於組裝完成之水箱2、電解裝置3、水泵裝置5及冷卻裝置7之中,水箱2第一中空部20與電解裝置3係相互連通(未繪示於圖中),冷卻裝置7係連接於水箱2,水泵裝置5係連接於散熱器7及水箱2之間,惟不以此為限,於實際應用時,散熱器70得直接連接於電解裝置3,水泵裝置5得直接連接於散熱器7及水箱2之間,意即本發明之氣體產生器不需要水箱2,或者不需將電解裝置3設置於水箱2中亦可以完成本發明之氣體產生器。 In the assembled water tank 2, the electrolysis device 3, the water pump device 5, and the cooling device 7, the first hollow portion 20 of the water tank 2 and the electrolysis device 3 are in communication with each other (not shown), and the cooling device 7 is connected to The water tank 2 and the water pump device 5 are connected between the radiator 7 and the water tank 2, but not limited thereto. In practical applications, the radiator 70 is directly connected to the electrolysis device 3, and the water pump device 5 is directly connected to the radiator. 7 and the water tank 2, that is, the gas generator of the present invention does not require the water tank 2, or the gas generator of the present invention can be completed without providing the electrolysis device 3 in the water tank 2.

接著,更進一步地描述上述的組裝完成之水箱2、電解裝置3、水泵裝置5及冷卻裝置7之間的連接關係。請參閱圖十五A及圖十五B。設置有電解裝置3之水箱2之出水口249a係與冷卻裝置7之散熱器70之入口704相互連接,冷卻裝置7之散熱器70之出口706係與水泵裝置5之入水管50相互連接,水泵裝置5之出水管52係與水箱2之入水口249b相互連接。惟不以上述之連接關係為限,於實際應用時,設置有電解裝置3之水箱2之出水口249a得與水泵裝置5之入水管50相互連接,水泵裝置5之出水管52得與冷卻裝置7之散熱器70之入口704相互連接,冷卻裝置7之散熱器70之出口706得與水箱2之入水口249b相互連接。 Next, the connection relationship between the assembled water tank 2, the electrolysis device 3, the water pump device 5, and the cooling device 7 will be further described. Please refer to Figure 15A and Figure 15B. The water outlet 249a of the water tank 2 provided with the electrolysis device 3 is connected to the inlet 704 of the radiator 70 of the cooling device 7, and the outlet 706 of the radiator 70 of the cooling device 7 is connected to the water inlet pipe 50 of the water pump device 5, and the water pump The water outlet pipe 52 of the device 5 is connected to the water inlet 249b of the water tank 2. However, in the actual application, the water outlet 249a of the water tank 2 provided with the electrolysis device 3 is connected to the water inlet pipe 50 of the water pump device 5, and the water outlet pipe 52 of the water pump device 5 is connected to the cooling device. The inlets 704 of the radiators 70 of 7 are connected to each other, and the outlet 706 of the radiator 70 of the cooling device 7 is connected to the water inlet 249b of the water tank 2.

於實際應用時,水箱2容置有一電解水W,電解裝置3設置於水箱2內,用以電解電解水W以產生一氫氧混合氣體G。產生於電極流道S1之氫氧混合氣體G經由所對應之墊板36之上穿孔360以及所對應之上蓋體37之第一流道370輸入至第一中空部20。輸入至第一中空部20之氫氧混合氣體G進一步地經由水箱2之導管22輸出,並得供使用者吸入,惟不以此為限, 於實際應用時,由第一中空部20輸出之氫氧混合氣體G能進一步地與經由霧化/揮發氣體混合槽4產生之霧化氣體G2混合,以形成保健氣體供使用者吸入。 In practical application, the water tank 2 houses an electrolyzed water W, and the electrolysis device 3 is disposed in the water tank 2 for electrolytically electrolyzing the water W to generate a hydrogen-oxygen mixed gas G. The hydrogen-oxygen mixed gas G generated in the electrode flow path S1 is input to the first hollow portion 20 via the perforation 360 above the corresponding pad 36 and the first flow path 370 of the corresponding upper cover 37. The hydrogen-oxygen mixed gas G input to the first hollow portion 20 is further outputted through the conduit 22 of the water tank 2, and is for inhalation by the user, but not limited thereto. In practical use, the hydrogen-oxygen mixed gas G outputted from the first hollow portion 20 can be further mixed with the atomizing gas G2 generated via the atomizing/volatile gas mixing tank 4 to form a health care gas for the user to inhale.

另外,當電解裝置3暫停電解電解水W以產生氫氧混合氣體G時,導管22可以用來補充輸入電解水W,以使電解水W充滿第一中空部20以及電解裝置3。補充輸入第一中空部20之電解水W得經由電解裝置3之下蓋體38之第二流道380以及複數個下穿孔3202輸入至所對應之電極流道S1,以提供電解裝置3電解時所需之電解水W。 Further, when the electrolysis device 3 suspends the electrolytic electrolysis water W to generate the hydrogen-oxygen mixed gas G, the conduit 22 can be used to supplement the input electrolysis water W so that the electrolyzed water W fills the first hollow portion 20 and the electrolysis device 3. The electrolyzed water W added to the first hollow portion 20 is input to the corresponding electrode flow path S1 via the second flow path 380 of the lower cover 38 of the electrolysis device 3 and a plurality of lower perforations 3202 to provide electrolysis device 3 during electrolysis. The required electrolyzed water W.

另外,水箱2、電解裝置3、水泵裝置5及冷卻裝置7係相互連通。於應用時,產生氫氧混合氣體G後之電解水W得藉由水泵裝置5從水箱2之出水口249a強制輸出至冷卻裝置7之散熱器70之入口704,並在散熱器70之散熱管702內進行冷卻。冷卻後之電解水W得藉由水泵裝置5經由散熱器70之出口706強制輸出至水泵裝置5之入水管50,進一步地,該電解水W得藉由水泵裝置5經由水泵裝置5之出水管52強制輸入至水箱2之入水口249b。因此,本發明之氣體產生器能夠藉由冷卻裝置冷卻產生氫氧混合氣體後之電解水,並藉由水泵裝置強置循環該電解水,以達到散熱之功效。其中,容置於該電解裝置中之該電解水之溫度係一常規電解溫度,於實際應用時,容置於電解裝置3中之電解水W之溫度得介於55℃~65℃之間。 Further, the water tank 2, the electrolysis device 3, the water pump device 5, and the cooling device 7 are in communication with each other. When applied, the electrolyzed water W after the hydrogen-oxygen mixed gas G is generated by the water pump device 5 from the water outlet 249a of the water tank 2 to the inlet 704 of the radiator 70 of the cooling device 7, and the heat pipe of the radiator 70 Cooling is performed within 702. The cooled electrolyzed water W is forcibly outputted to the water inlet pipe 50 of the water pump device 5 via the outlet 706 of the radiator 70 by the water pump device 5, and further, the electrolysis water W is discharged from the water pump device 5 via the water pump device 5 52 is forcibly input to the water inlet 249b of the water tank 2. Therefore, the gas generator of the present invention can cool the electrolyzed water after the hydrogen-oxygen mixed gas is generated by the cooling device, and the electrolyzed water is forcibly circulated by the water pump device to achieve the heat dissipation effect. Wherein, the temperature of the electrolyzed water accommodated in the electrolysis device is a conventional electrolysis temperature, and in actual application, the temperature of the electrolyzed water W accommodated in the electrolysis device 3 is between 55 ° C and 65 ° C.

更進一步地,微電腦控制器8係耦接於水泵裝置5用以感測電解水W之溫度,並根據所感測之電解水W之溫度以控制水泵裝置5抽取及輸入之流速。於實際應用時,當經由溫度感測器80感測之電解水W之溫度高於一預設溫度,此溫度過高之資訊會被傳遞回微電腦控制器8,則微電腦控 制器8會進一步地控制水泵裝置5以加速電解水W循環之流速,使電解水之溫度降低以回到預設溫度內。相反地,當經由溫度感測器80感測之電解水W之溫度低於一預設溫度,此溫度過低之資訊會被傳遞回微電腦控制器8,則微電腦控制器8會進一步地控制水泵裝置5以減緩電解水W循環之流速,使電解水之溫度升高以回到預設溫度內。其中預設溫度為能提供最佳電解效率之溫度。於本實施例中,預設溫度係一常規電解溫度。於實務上,常規電解溫度係介於55℃~65℃之間。 Further, the microcomputer controller 8 is coupled to the water pump device 5 for sensing the temperature of the electrolyzed water W, and controlling the flow rate of the pumping device 5 to be extracted and input according to the sensed temperature of the electrolyzed water W. In actual application, when the temperature of the electrolyzed water W sensed via the temperature sensor 80 is higher than a preset temperature, the information of the excessive temperature is transmitted back to the microcomputer controller 8, and the microcomputer is controlled. The controller 8 further controls the water pump device 5 to accelerate the flow rate of the electrolyzed water W cycle to lower the temperature of the electrolyzed water to return to the preset temperature. Conversely, when the temperature of the electrolyzed water W sensed via the temperature sensor 80 is lower than a predetermined temperature, the information that the temperature is too low is transmitted back to the microcomputer controller 8, and the microcomputer controller 8 further controls the water pump. The device 5 slows the flow rate of the electrolyzed water W cycle to raise the temperature of the electrolyzed water to return to the preset temperature. The preset temperature is the temperature that provides the best electrolysis efficiency. In this embodiment, the preset temperature is a conventional electrolysis temperature. In practice, the conventional electrolysis temperature range is between 55 ° C and 65 ° C.

綜合而言,本發明的重點在於提出一種氣體產生器,其包含電解裝置、冷卻裝置以及水泵裝置。本發明之氣體產生器能夠藉由冷卻裝置冷卻產生氫氧混合氣體後之電解水,並藉由水泵裝置強置循環電解水,以達到散熱之功效。同時,本發明能使電解水溫度位於一提供最佳電解效率之溫度範圍內,用以有效地電解電解水產生氫氧混合氣體以解決耗能的問題。 In summary, the present invention is directed to a gas generator comprising an electrolysis device, a cooling device, and a water pump device. The gas generator of the present invention can cool the electrolyzed water after the hydrogen-oxygen mixed gas is generated by the cooling device, and the circulating electrolyzed water is forced by the water pump device to achieve the heat dissipation effect. At the same time, the present invention enables the electrolyzed water temperature to be within a temperature range that provides optimum electrolysis efficiency for effectively electrolyzing the electrolyzed water to produce a hydrogen-oxygen mixed gas to solve the problem of energy consumption.

請參閱圖九A及圖九B。本發明另提出一種氣體產生器,其為一種具有過濾功能之氣體產生器。於第七具體實施例中,氣體產生器1包含一電解裝置3以及一冷凝過濾器6。電解裝置3容置一電解水W(未繪示於圖中)。電解裝置3用以電解電解水W以產生一氫氧混合氣體G。冷凝過濾器6連接電解裝置3,用以冷凝氫氧混合氣體G同時並過濾氫氧混合氣體G中之一雜質。其中當電解裝置3暫停電解電解水W以產生氫氧混合氣體G時,冷凝過濾器6可以用來輸入一補充水W2(未繪示於圖中),同時雜質可以藉由補充水W2經由冷凝過濾器6回沖至電解裝置3。 Please refer to Figure 9A and Figure 9B. The invention further provides a gas generator which is a gas generator having a filtering function. In a seventh embodiment, the gas generator 1 comprises an electrolysis unit 3 and a condensing filter 6. The electrolysis device 3 houses an electrolyzed water W (not shown). The electrolysis device 3 is for electrolytically electrolyzing water W to produce a hydrogen-oxygen mixed gas G. The condensing filter 6 is connected to the electrolysis device 3 for condensing the hydrogen-oxygen mixed gas G while filtering one of the impurities in the hydrogen-oxygen mixed gas G. When the electrolysis device 3 suspends the electrolytic electrolysis water W to generate the hydrogen-oxygen mixed gas G, the condensing filter 6 can be used to input a supplementary water W2 (not shown), and the impurities can be condensed by the supplementary water W2. The filter 6 is backflushed to the electrolysis device 3.

更進一步地,於第八具體實施例中,本發明之氣體產生器1 另包含一水箱2。水箱2具有一第一中空部20。水箱2之第一中空部20容置有電解水W。電解裝置3係設置於水箱2之第一中空部20之內,第一中空部20與電解裝置3係相互連通。 Further, in the eighth embodiment, the gas generator 1 of the present invention Also included is a water tank 2. The water tank 2 has a first hollow portion 20. The first hollow portion 20 of the water tank 2 houses the electrolyzed water W. The electrolysis device 3 is disposed inside the first hollow portion 20 of the water tank 2, and the first hollow portion 20 and the electrolysis device 3 are in communication with each other.

更進一步地,於第九具體實施例中,本發明之氣體產生器1另包含一霧化/揮發氣體混合槽4(如圖十五A所示)。霧化/揮發氣體混合槽4能用以接收過濾後之氫氧混合氣體G。霧化/揮發氣體混合槽4能產生霧化氣體G2與過濾後之氫氧混合氣體G混合,以形成保健氣體供該使用者吸入。 Further, in the ninth embodiment, the gas generator 1 of the present invention further comprises an atomizing/volatile gas mixing tank 4 (as shown in Fig. 15A). The atomizing/volatile gas mixing tank 4 can be used to receive the filtered hydrogen-oxygen mixed gas G. The atomizing/volatile gas mixing tank 4 can generate an atomizing gas G2 mixed with the filtered hydrogen-oxygen mixed gas G to form a health gas for inhalation by the user.

請參閱圖九A及圖九B,圖九A及圖九B係繪示本發明之氣體產生器於第十具體實施例中之不同視角的示意圖。於第十具體實施例中,本發明之氣體產生器1另包含一水泵裝置5及冷卻裝置7。 Please refer to FIG. 9A and FIG. 9B. FIG. 9A and FIG. 9B are schematic diagrams showing different angles of view of the gas generator of the present invention in the tenth embodiment. In a tenth embodiment, the gas generator 1 of the present invention further comprises a water pump device 5 and a cooling device 7.

以下將對本發明之各個元件之設計先分別進行說明。 The design of each component of the present invention will be separately described below.

首先,由於水箱2、電解裝置3、及霧化/揮發氣體混合槽4之結構設計已於前面進行說明,故不在此再贅述。 First, since the structural design of the water tank 2, the electrolysis device 3, and the atomization/volatile gas mixing tank 4 has been described above, it will not be described again.

請參閱圖十A、圖十B、圖十一、圖十二、圖十三、圖十四A以及圖十四B。本發明之冷凝過濾器6具有一入氣孔60以及一出氣孔62。入氣孔60得連接於電解裝置3,用以接收氫氧混合氣體。出氣孔62用以排出過濾後之氫氧混合氣體G。另外,本發明之冷凝過濾器6包含有複數個冷凝片64。每一冷凝片64具有一流道640,冷凝片64之流道640a與相鄰之冷凝片64之流道640a相互連通,藉以形成供氫氧混合氣體G流通之一循環流道640,用以冷凝氫氧混合氣體G。入氣孔60與出氣孔62得藉由循環流道640相互連通。更進一步地,流道640a內設置有一活性碳纖維,用以過濾氫氧混合氣體G中之雜質。流道640a另設置有任一由陶瓷、石英石、硅藻土、海泡石或 以上組合所組成之過濾材料,過濾材料能更進一步地過濾氫氧混合氣體G中之雜質。其中雜質為電解水W中之電解質,其為氫氧化鈉。惟不以此為限,於實際應用時,雜質得為碳酸鈣,氯化鈉等。此外,本發明之入氣孔60為由一過濾網600及一過濾網蓋602所組成。過濾網600及過濾網蓋602得連接於電解裝置3,用以接收氫氧混合氣體G,並初步地過濾氫氧混合氣體G。其中電解裝置3係容置於水箱2用以進一步地與冷凝過濾器6連接。 Please refer to Figure 10A, Figure 10B, Figure 11, Figure 12, Figure 13, Figure 14A and Figure 14B. The condensing filter 6 of the present invention has an air inlet 60 and an air outlet 62. The air inlet 60 is connected to the electrolysis device 3 for receiving the hydrogen-oxygen mixed gas. The air outlet 62 serves to discharge the filtered hydrogen-oxygen mixed gas G. Further, the condensing filter 6 of the present invention comprises a plurality of condensing sheets 64. Each of the condensing fins 64 has a flow path 640, and the flow path 640a of the condensing sheet 64 communicates with the flow path 640a of the adjacent condensing sheet 64 to form a circulation flow path 640 through which the hydrogen-oxygen mixed gas G flows for condensation. Hydrogen-oxygen mixed gas G. The air inlet 60 and the air outlet 62 are connected to each other by the circulation flow path 640. Further, an active carbon fiber is disposed in the flow path 640a for filtering impurities in the hydrogen-oxygen mixed gas G. The flow channel 640a is additionally provided with any ceramic, quartz, diatomaceous earth, sepiolite or The filter material composed of the above combination can further filter the impurities in the hydrogen-oxygen mixed gas G. The impurity is the electrolyte in the electrolyzed water W, which is sodium hydroxide. However, it is not limited to this. In practical applications, the impurities are calcium carbonate, sodium chloride and the like. In addition, the air inlet 60 of the present invention is composed of a filter 600 and a filter cover 602. The filter 600 and the filter cover 602 are connected to the electrolysis device 3 for receiving the hydrogen-oxygen mixed gas G and initially filtering the hydrogen-oxygen mixed gas G. The electrolysis device 3 is housed in the water tank 2 for further connection with the condensing filter 6.

以上,在對各個元件的個別設計進行說明後,以下將對各元件的組合方式以及其應用進行描述。 In the above, after the individual design of each component is described, the combination of each component and its application will be described below.

於組裝完成之電解裝置3中,複數個電極34分別間隔設置於電解槽體32,墊板36設置於每一電極34之上表面,上蓋體37蓋設於墊板36相對於電解槽體32之另一端,下蓋體38蓋設於電解槽體32之下表面相對於上蓋體37之另一端。 In the assembled electrolysis device 3, a plurality of electrodes 34 are respectively disposed at intervals on the electrolytic cell body 32. The backing plate 36 is disposed on the upper surface of each of the electrodes 34, and the upper cover 37 is disposed on the backing plate 36 relative to the electrolytic cell body 32. At the other end, the lower cover 38 is disposed on the lower surface of the electrolytic cell body 32 with respect to the other end of the upper cover 37.

於組裝完成之水箱2及電解裝置3中,組裝完後之電解裝置3之陽極片342及陰極片340分別地藉由兩電極柱33鎖固於水箱蓋體26上。而檢測裝置(如流量偵測器82)被貫穿於水箱蓋體26之複數個蓋孔261並設置於水箱蓋體26上。密封墊28被設置於水箱槽體24,並藉由密封墊28之第三嵌合結構282及水箱槽體24之第一嵌合結構246相互嵌合。水箱槽體24之第一側緣248藉由水箱蓋體26之第二開口部266被蓋設於水箱蓋體26之第二中空部264中,以將水箱槽體24與水箱蓋體26緊密結合,並將電解裝置3懸空地固設於水箱2內。其中,水箱2之第一中空部20與電解裝置3係相互連通的。 In the assembled water tank 2 and the electrolysis device 3, the anode piece 342 and the cathode piece 340 of the assembled electrolysis device 3 are respectively locked to the tank cover 26 by the two electrode columns 33. The detecting device (such as the flow detector 82) is inserted through the plurality of cover holes 261 of the tank cover 26 and disposed on the tank cover 26. The gasket 28 is disposed in the water tank body 24 and is fitted to each other by the third fitting structure 282 of the gasket 28 and the first fitting structure 246 of the water tank body 24. The first side edge 248 of the water tank body 24 is covered in the second hollow portion 264 of the water tank cover 26 by the second opening portion 266 of the water tank cover 26 to close the water tank body 24 and the water tank cover 26. In combination, the electrolysis device 3 is suspended in the water tank 2 in a suspended manner. The first hollow portion 20 of the water tank 2 and the electrolysis device 3 are in communication with each other.

於組裝完成之水箱2、電解裝置3及冷凝過濾器6中,設置有電解裝置3之水箱2與冷凝過濾器6係藉由水箱2之導管22及冷凝過濾器6之 入氣孔60之間的連接以相互連通。更進一步地,霧化/揮發氣體混合槽4得連接於冷凝過濾器6之出氣孔62。 In the assembled water tank 2, the electrolysis device 3, and the condensing filter 6, the water tank 2 and the condensing filter 6 provided with the electrolysis device 3 are connected by the conduit 22 of the water tank 2 and the condensing filter 6 The connections between the air inlet holes 60 are in communication with each other. Further, the atomizing/volatile gas mixing tank 4 is connected to the air outlet 62 of the condensing filter 6.

於實際應用時,水箱2容置有一電解水W,電解裝置3設置於水箱2內,用以電解電解水W以產生一氫氧混合氣體G。產生於電極流道S1之氫氧混合氣體G經由所對應之墊板36之上穿孔360以及所對應之上蓋體37之第一流道370輸入至第一中空部20。輸入至第一中空部20之氫氧混合氣體G進一步地經由水箱2之導管22輸出。由水箱2之導管22輸出之氫氧混合氣體G得經由冷凝過濾器6之入氣孔60進入冷凝過濾器6進行冷凝及過濾。進入冷凝過濾器6之入氣孔60的氫氧混合氣體G首先會先通過過濾網600及過濾網蓋602進行初步地過濾。接著,進行初步地過濾後之氫氧混合氣體G會進一步地進入循環流道640進行冷凝,同時,氫氧混合氣體G得藉由設置於流道640a內之活性碳纖維及過濾材料進行過濾並將雜質會吸附於循環流道內640內。接著,過濾後之氫氧混合氣體G得藉由冷凝過濾器6之出氣孔62輸出過濾後之氫氧混合氣體G,並得供使用者吸入,惟不以此為限,於實際應用時,由冷凝過濾器6輸出之過濾後之氫氧混合氣體G能進一步地與經由霧化/揮發氣體混合槽4產生之霧化氣體G2混合,以形成保健氣體供使用者吸入。 In practical application, the water tank 2 houses an electrolyzed water W, and the electrolysis device 3 is disposed in the water tank 2 for electrolytically electrolyzing the water W to generate a hydrogen-oxygen mixed gas G. The hydrogen-oxygen mixed gas G generated in the electrode flow path S1 is input to the first hollow portion 20 via the perforation 360 above the corresponding pad 36 and the first flow path 370 of the corresponding upper cover 37. The hydrogen-oxygen mixed gas G input to the first hollow portion 20 is further output through the conduit 22 of the water tank 2. The hydrogen-oxygen mixed gas G outputted from the conduit 22 of the water tank 2 is passed through the inlet port 60 of the condensing filter 6 into the condensing filter 6 for condensation and filtration. The hydrogen-oxygen mixed gas G entering the air inlet 60 of the condensing filter 6 is firstly filtered first through the filter 600 and the filter cover 602. Then, the preliminary filtered hydrogen-oxygen mixed gas G is further introduced into the circulation flow path 640 for condensation, and at the same time, the hydrogen-oxygen mixed gas G is filtered by the activated carbon fiber and the filter material disposed in the flow path 640a. Impurities are adsorbed within the circulation channel 640. Then, the filtered hydrogen-oxygen mixed gas G is outputted by the venting port 62 of the condensing filter 6 to be filtered and supplied to the user, but not limited thereto. In practical applications, The filtered hydrogen-oxygen mixed gas G outputted from the condensing filter 6 can be further mixed with the atomizing gas G2 generated via the atomizing/volatile gas mixing tank 4 to form a health care gas for the user to inhale.

另外,當電解裝置3暫停電解電解水W以產生氫氧混合氣體G時,冷凝過濾器6之出氣孔62可以用來輸入以補充補充水W2。由冷凝過濾器6之出氣孔62補充之補充水W2得經由與出氣孔62連接之導管22輸入至水箱2之第一中空部20中。補充輸入第一中空部20之電解水W得經由電解裝置3之下蓋體38之第二流道380以及複數個下穿孔3202輸入至所對應之電極流道S1,以提供電解裝置3電解時所需之電解水W。同時,吸附於冷凝過濾器 6之循環流道640內之雜質可以藉由上述之補充水W2經由入氣孔60及導管22回沖至設置有電解裝置3之水箱2內。 Further, when the electrolysis device 3 suspends the electrolytic electrolysis water W to generate the hydrogen-oxygen mixed gas G, the vent hole 62 of the condensing filter 6 can be used for input to replenish the makeup water W2. The makeup water W2 supplemented by the air outlet 62 of the condensing filter 6 is input to the first hollow portion 20 of the water tank 2 via the duct 22 connected to the air outlet 62. The electrolyzed water W added to the first hollow portion 20 is input to the corresponding electrode flow path S1 via the second flow path 380 of the lower cover 38 of the electrolysis device 3 and a plurality of lower perforations 3202 to provide electrolysis device 3 during electrolysis. The required electrolyzed water W. At the same time, adsorbed to the condensing filter The impurities in the circulation passage 640 of 6 can be returned to the water tank 2 provided with the electrolysis device 3 via the inlet holes 60 and the conduit 22 by the above-mentioned supplementary water W2.

另外,耦接電解裝置3之流量偵測器82能偵測氫氧混合氣體G的流量。其中,氣體產生器1之氫氧混合氣體G之產生流率係介於0.01L/min.與12L/min.之間。 In addition, the flow rate detector 82 coupled to the electrolysis device 3 can detect the flow rate of the hydrogen-oxygen mixed gas G. The flow rate of the hydrogen-oxygen mixed gas G of the gas generator 1 is between 0.01 L/min. and 12 L/min.

綜合而言,本發明的重點在於提出一種氣體產生器,其包含電解裝置以及冷凝過濾器。於本發明之氣體產生器中,電解裝置所產生之氫氧混合氣體能夠藉由冷凝過濾器進行冷凝及過濾其中之雜質,以提供一適合人體吸入之氫氧混合氣體。同時,藉由本發明之設計能夠在補充水的同時將電解質回沖至電解裝置,用以減少電解質之消耗以及避免電解質阻塞於冷凝過濾器中。 In summary, the focus of the present invention is to propose a gas generator comprising an electrolysis device and a condensing filter. In the gas generator of the present invention, the hydrogen-oxygen mixed gas produced by the electrolysis device can be condensed by the condensing filter and the impurities therein can be filtered to provide a hydrogen-oxygen mixed gas suitable for human body inhalation. At the same time, the design of the present invention enables the electrolyte to be backflushed to the electrolysis device while replenishing water to reduce electrolyte consumption and to prevent electrolyte clogging in the condensing filter.

請參閱圖十五A、圖十五B及圖十六。於第十一具體實施例中,本發明另提出一種氣體產生器,其為一種有濕化功能之氣體產生器。氣體產生器1包含一電解裝置3(未繪示於圖中)及一濕化裝置9。電解裝置3容置有電解水W,用以電解電解水W以產生一氫氧混合氣體G。濕化裝置9連接電解裝置3,用以接收並濕化氫氧混合氣體G。 Please refer to Figure 15A, Figure 15B and Figure 16. In an eleventh embodiment, the present invention further provides a gas generator which is a gas generator having a humidification function. The gas generator 1 comprises an electrolysis device 3 (not shown) and a humidification device 9. The electrolysis device 3 houses electrolyzed water W for electrolytically electrolyzing the water W to produce a hydrogen-oxygen mixed gas G. The humidification device 9 is connected to the electrolysis device 3 for receiving and humidifying the hydrogen-oxygen mixed gas G.

更進一步地,於第十二具體實施例中,本發明之氣體產生器1另包含一冷凝過濾器6。冷凝過濾器6得設於電解裝置3與濕化裝置9之間,用以冷凝電解裝置3所產生之氫氧混合氣體G同時並過濾氫氧混合氣體G中之一雜質。 Further, in the twelfth embodiment, the gas generator 1 of the present invention further comprises a condensing filter 6. The condensing filter 6 is disposed between the electrolysis device 3 and the humidification device 9 for condensing the hydrogen-oxygen mixed gas G produced by the electrolysis device 3 while filtering one of the impurities in the hydrogen-oxygen mixed gas G.

更進一步地,於第十三具體實施例中,本發明之氣體產生器1另包含一霧化/揮發氣體混合槽4。霧化/揮發氣體混合槽4能用以接收過濾 後之氫氧混合氣體G。霧化/揮發氣體混合槽4能產生霧化氣體G2與過濾後之氫氧混合氣體G混合,以形成保健氣體供使用者吸入。惟不以此為限,於另一例中,本發明之霧化/揮發氣體混合槽4得為一手持式霧化裝置(未繪示於圖中)。手持式霧化裝置得連接濕化裝置9,用以接收濕化後之氫氧混合氣體。手持式霧化裝置產生一霧化氣體與濕化後之氫氧混合氣體混合,以形成保健氣體供使用者吸入,其中霧化氣體選自於由水蒸汽、霧化藥水、揮發精油及其組合所組成之族群中的一種。於實際應用時,手持式霧化裝置為具有一按壓式結構,使用者透過按壓手持式霧化裝置之按壓式結構即可以輸出保健氣體之所需量來吸入。 Further, in the thirteenth embodiment, the gas generator 1 of the present invention further comprises an atomizing/volatile gas mixing tank 4. The atomizing/volatile gas mixing tank 4 can be used for receiving filtration After the hydrogen-oxygen mixed gas G. The atomizing/volatile gas mixing tank 4 can generate an atomizing gas G2 mixed with the filtered hydrogen-oxygen mixed gas G to form a health care gas for the user to inhale. However, in another example, the atomization/volatile gas mixing tank 4 of the present invention is a hand-held atomizing device (not shown). The hand-held atomizing device is connected to the humidifying device 9 for receiving the humidified hydrogen-oxygen mixed gas. The hand atomizing device generates an atomizing gas mixed with the humidified hydrogen-oxygen mixed gas to form a health gas for inhalation by a user, wherein the atomizing gas is selected from the group consisting of water vapor, atomized syrup, volatile essential oil and combinations thereof. One of the ethnic groups formed. In practical applications, the hand-held atomizing device has a pressing structure, and the user can inhale the required amount of the health gas by pressing the pressing structure of the hand-held atomizing device.

請參閱圖十五,圖十五A及圖十五B係繪示本發明之氣體產生器於第十四具體實施例中之不同視角的示意圖。更進一步地,於第十四具體實施例中,本發明之氣體產生器1另包含水箱2、水汞裝置5、冷卻裝置7、一氣體輸出裝置10。其中氣體輸出裝置10得用以輸出保健氣體供使用者吸入,保健氣體為濕化後之氫氧混合氣體G與霧化氣體G2之混合。 Referring to FIG. 15, FIG. 15A and FIG. 15B are schematic diagrams showing different angles of view of the gas generator of the present invention in the fourteenth embodiment. Further, in the fourteenth embodiment, the gas generator 1 of the present invention further comprises a water tank 2, a mercury mercury device 5, a cooling device 7, and a gas output device 10. The gas output device 10 is configured to output a health gas for inhalation by a user, and the health care gas is a mixture of the humidified hydrogen-oxygen mixed gas G and the atomizing gas G2.

以下將對本發明之各個元件之設計先分別進行說明。 The design of each component of the present invention will be separately described below.

首先,由於冷凝過濾器6及霧化/揮發氣體混合槽4之結構設計已於前面進行說明,故不在此再贅述。 First, since the structural design of the condensing filter 6 and the atomizing/volatile gas mixing tank 4 has been described above, it will not be described again.

本發明之濕化裝置9包含有一中空本體90、一第二導管92、至少一輸出管94、一震盪裝置95(於圖十五中僅以虛線表示)、一第三導管96以及一第四導管98。中空本體90得用以容置一補充水W2。第二導管92設置於中空本體90上得用以與電解裝置3連接(未繪示於圖中)。至少一輸出管94設置於中空本體90之中並與第二導管92連接。第二導管92係與兩輸出管94 連接以形成一T型結構,惟不以此為限,於實際應用時,得視使用情況作調整第二導管與至少一輸出管94之間的連接。更進一步地,兩輸出管94之表面皆具有複數個之奈米穿孔,其中上述之奈米穿孔具有奈米級的孔徑。於實際應用時,奈米穿孔的尺寸可介於2奈米至10奈米的範圍內,惟不以此為限,得使用者需求進行調整。連接第二導管92之兩輸出管94的末端皆分別設置有一橡膠塞,用以使由第二導管92所接收之氫氧混合氣體G由兩輸出管94之複數個奈米穿孔(未繪示於圖中)排出至中空本體90,惟不以此為限,於實際應用時,連接第二導管92之兩輸出管94的末端亦可為封閉的設計。震盪裝置95得設置於中空本體90之中並位於至少一輸出管94之下方,用以震盪補充水。震盪裝置95得包含一超音波震盪器,用來對中空本體90中的補充水進行震盪。於實務中,震盪裝置不僅限於本具體實施例之超音波震盪器,其位置也不限定於圖十五B所示之位置,任何設置於中空本體上且能對水進行震盪或攪拌以有效分散氫氧混合氣體成微小氣泡的裝置,均屬於本發明所定義之震盪裝置。例如,震盪裝置95也可包含離心葉片以及連接離心葉片的驅動馬達,驅動馬達能驅動離心葉片旋轉以於水中產生渦流,輔助氫氧混合氣體中的氫氣更有效地分散於水中而形成氫氣水。震盪裝置95還可同時包含上述的超音波震盪器、離心葉片與驅動馬達,令氫氣水的產生更有效率。第三導管96得設置於中空本體90上,用以輸出氫氣水H或者用以補充輸入補充水W2。於實際應用時,第三導管得連通一導孔,由第三導管通過導孔以倒出氫氣水H或者倒入補充水W2。第四導管98得設置於中空本體90上,用以輸出經過濕化後之氫氧混合氣體G。 The humidification device 9 of the present invention comprises a hollow body 90, a second conduit 92, at least one output tube 94, an oscillating device 95 (shown only in phantom in FIG. 15), a third conduit 96 and a fourth Catheter 98. The hollow body 90 is configured to receive a supplemental water W2. The second conduit 92 is disposed on the hollow body 90 for connection with the electrolysis device 3 (not shown). At least one output tube 94 is disposed in the hollow body 90 and coupled to the second conduit 92. Second conduit 92 and two output tubes 94 The connection is made to form a T-shaped structure, but not limited thereto. In practical applications, the connection between the second conduit and the at least one output tube 94 is adjusted depending on the use. Further, the surfaces of the two output tubes 94 each have a plurality of nano-perforations, wherein the nano-perforations have a nanometer-sized aperture. In practical applications, the size of the nano-perforation can range from 2 nm to 10 nm, but not limited to this, and can be adjusted by the user's needs. The ends of the two output tubes 94 connected to the second conduit 92 are respectively provided with rubber stoppers for allowing the hydrogen-oxygen mixed gas G received by the second conduit 92 to be perforated by a plurality of nanometers of the two output tubes 94 (not shown) It is discharged to the hollow body 90, but not limited thereto. In practical applications, the ends of the two output tubes 94 connecting the second conduits 92 may also be of a closed design. The oscillating device 95 is disposed in the hollow body 90 and located below the at least one output tube 94 for oscillating the makeup water. The oscillating device 95 is adapted to include an ultrasonic oscillator for oscillating the makeup water in the hollow body 90. In practice, the oscillating device is not limited to the ultrasonic oscillator of the specific embodiment, and its position is not limited to the position shown in FIG. 15B. Any of the oscillating devices are disposed on the hollow body and can oscillate or stir the water to effectively disperse. The means for forming a hydrogen-oxygen mixed gas into microbubbles is an oscillating device as defined in the present invention. For example, the oscillating device 95 may also include a centrifugal blade and a drive motor that connects the centrifugal blades. The drive motor can drive the centrifugal blades to rotate to generate eddy currents in the water, and assist the hydrogen in the hydrogen-oxygen mixed gas to be more effectively dispersed in the water to form hydrogen water. The oscillating device 95 can also include the above-described ultrasonic oscillator, centrifugal blades and drive motor to make the generation of hydrogen water more efficient. The third conduit 96 is disposed on the hollow body 90 for outputting hydrogen water H or for supplementing the input makeup water W2. In practical applications, the third conduit is connected to a guide hole, and the third conduit passes through the guide hole to pour out the hydrogen water H or pour the supplementary water W2. The fourth conduit 98 is disposed on the hollow body 90 for outputting the humidified hydrogen-oxygen mixed gas G.

更進一步地,於另一例中,本發明之氣體產生器1另包含一 水箱2。水箱2具有一第一中空部20。水箱2之第一中空部20容置有電解水W。電解裝置3係設置於水箱2之第一中空部20之內,第一中空部20與電解裝置3係相互連通。此外,本發明之濕化裝置9得另包含一第二水汞裝置(未繪示於圖中)。第二水汞裝置得設置於水箱蓋體26上並連通於第一中空部20,用以抽取水箱2內部之氣體以使其內部產生一負壓。 Further, in another example, the gas generator 1 of the present invention further comprises a Water tank 2. The water tank 2 has a first hollow portion 20. The first hollow portion 20 of the water tank 2 houses the electrolyzed water W. The electrolysis device 3 is disposed inside the first hollow portion 20 of the water tank 2, and the first hollow portion 20 and the electrolysis device 3 are in communication with each other. In addition, the humidification device 9 of the present invention may further comprise a second mercury mercury device (not shown). The second mercury mercury device is disposed on the water tank cover 26 and communicates with the first hollow portion 20 for extracting gas inside the water tank 2 to generate a negative pressure inside thereof.

以上,在對各個元件的個別設計進行說明後,以下將對各元件的組合方式以及其應用進行描述。 In the above, after the individual design of each component is described, the combination of each component and its application will be described below.

於一組裝完成之電解裝置3,複數個電極34分別間隔設置於電解槽體32,墊板36設置於每一電極34之上表面,上蓋體37蓋設於墊板36相對於電解槽體32之另一端,下蓋體38蓋設於電解槽體32之下表面相對於上蓋體37之另一端。 In the assembled electrolysis device 3, a plurality of electrodes 34 are respectively disposed at the electrolytic cell body 32, the backing plate 36 is disposed on the upper surface of each of the electrodes 34, and the upper cover 37 is disposed on the backing plate 36 with respect to the electrolytic cell body 32. At the other end, the lower cover 38 is disposed on the lower surface of the electrolytic cell body 32 with respect to the other end of the upper cover 37.

於組裝完成之水箱2及電解裝置3,組裝完後之電解裝置3之陽極片342及陰極片340分別地藉由兩電極柱33鎖固於水箱蓋體26上。而檢測裝置(如流量偵測器82)被貫穿於水箱蓋體26之複數個蓋孔261並設置於水箱蓋體26上。密封墊28被設置於水箱槽體24,並藉由密封墊28之第三嵌合結構282及水箱槽體24之第一嵌合結構246相互嵌合。水箱槽體24之第一側緣248藉由水箱蓋體26之第二開口部266被蓋設於水箱蓋體26之第二中空部264中,以將水箱槽體24與水箱蓋體26緊密結合,並將電解裝置3懸空地固設於水箱2內。其中,水箱2之第一中空部20與電解裝置3係相互連通的。 After the assembled water tank 2 and the electrolysis device 3, the anode piece 342 and the cathode piece 340 of the assembled electrolysis device 3 are respectively locked to the tank cover 26 by the two electrode columns 33. The detecting device (such as the flow detector 82) is inserted through the plurality of cover holes 261 of the tank cover 26 and disposed on the tank cover 26. The gasket 28 is disposed in the water tank body 24 and is fitted to each other by the third fitting structure 282 of the gasket 28 and the first fitting structure 246 of the water tank body 24. The first side edge 248 of the water tank body 24 is covered in the second hollow portion 264 of the water tank cover 26 by the second opening portion 266 of the water tank cover 26 to close the water tank body 24 and the water tank cover 26. In combination, the electrolysis device 3 is suspended in the water tank 2 in a suspended manner. The first hollow portion 20 of the water tank 2 and the electrolysis device 3 are in communication with each other.

於組裝完成之水箱2、電解裝置3、冷凝過濾器6及濕化裝置9,設置有電解裝置3之水箱2與冷凝過濾器6係藉由水箱2之導管22及冷凝過濾器6之入氣孔60之間的連接以相互連通。接著,與水箱相互連通之冷凝過 濾器6與濕化裝置9係藉由冷凝過濾器6之出氣孔60與濕化裝置9之第二導管92之間的連接以相互連通。更進一步地,於第十三具體實施例中,霧化/揮發氣體混合槽4得連接於濕化裝置9之第四導管98。 In the assembled water tank 2, the electrolysis device 3, the condensing filter 6, and the humidifying device 9, the water tank 2 and the condensing filter 6 provided with the electrolysis device 3 are the air inlet holes of the conduit 22 and the condensing filter 6 of the water tank 2. The connections between 60 are connected to each other. Then, the condensation with the water tank is connected The filter 6 and the humidifying device 9 are in communication with each other by a connection between the air outlet 60 of the condensing filter 6 and the second duct 92 of the humidifying device 9. Further, in the thirteenth embodiment, the atomizing/volatile gas mixing tank 4 is connected to the fourth conduit 98 of the humidifying device 9.

於實際應用時,水箱2容置有一電解水W,電解裝置3設置於水箱2內,用以電解電解水W以產生一氫氧混合氣體G。產生於電極流道S1之氫氧混合氣體G經由所對應之墊板36之上穿孔360以及所對應之上蓋體37之第一流道370輸入至第一中空部20。輸入至第一中空部20之氫氧混合氣體G進一步地經由水箱2之導管22輸出。由水箱2之導管22輸出之氫氧混合氣體G得經由冷凝過濾器6之入氣孔60進入冷凝過濾器6進行冷凝及過濾。進入冷凝過濾器6之入氣孔60的氫氧混合氣體G首先會先通過過濾網600及過濾網蓋602進行初步地過濾。接著,進行初步地過濾後之氫氧混合氣體G會進一步地進入循環流道640進行冷凝,同時,氫氧混合氣體G得藉由設置於流道640a內之活性碳纖維及過濾材料進行過濾並將雜質會吸附於循環流道內640內。接著,過濾後之氫氧混合氣體G得藉由冷凝過濾器6之出氣孔62輸出過濾後之氫氧混合氣體G。 In practical application, the water tank 2 houses an electrolyzed water W, and the electrolysis device 3 is disposed in the water tank 2 for electrolytically electrolyzing the water W to generate a hydrogen-oxygen mixed gas G. The hydrogen-oxygen mixed gas G generated in the electrode flow path S1 is input to the first hollow portion 20 via the perforation 360 above the corresponding pad 36 and the first flow path 370 of the corresponding upper cover 37. The hydrogen-oxygen mixed gas G input to the first hollow portion 20 is further output through the conduit 22 of the water tank 2. The hydrogen-oxygen mixed gas G outputted from the conduit 22 of the water tank 2 is passed through the inlet port 60 of the condensing filter 6 into the condensing filter 6 for condensation and filtration. The hydrogen-oxygen mixed gas G entering the air inlet 60 of the condensing filter 6 is firstly filtered first through the filter 600 and the filter cover 602. Then, the preliminary filtered hydrogen-oxygen mixed gas G is further introduced into the circulation flow path 640 for condensation, and at the same time, the hydrogen-oxygen mixed gas G is filtered by the activated carbon fiber and the filter material disposed in the flow path 640a. Impurities are adsorbed within the circulation channel 640. Next, the filtered hydrogen-oxygen mixed gas G is supplied to the filtered hydrogen-oxygen mixed gas G through the gas outlet 62 of the condensing filter 6.

再者,過濾後之氫氧混合氣體G得藉由與出氣孔62連接之第二導管92輸入至濕化裝置9。由第二導管92所接收之過濾後之氫氧混合氣體G得藉由兩輸出管94之複數個奈米穿孔以排出至中空本體90內。於實際應用時,由於輸出管94之表面所具有之複數個奈米穿孔,其得用於對輸入濕化裝置之氫氧混合氣體進行細化,以形成易溶解之細化氣泡。同時,容置於濕化裝置9中之補充水藉由震盪裝置95進行震盪,用以使氣體能容易地溶於震盪後之補充水中。其中上述由奈米穿孔所排出之氫氧混合氣體G得藉由震 盪裝置95震盪後之補充水進行濕化以產生經過濕化後之氫氧混合氣體,並得供使用者吸入,惟不以此為限,於實際應用時,由濕化裝置9輸出之濕化後之氫氧混合氣體G能進一步地與經由霧化/揮發氣體混合槽4產生之霧化氣體G2混合,以形成保健氣體供使用者吸入。另外,上述由表面具有奈米穿孔之輸出管所排出之氫氧混合氣體G亦得與經由震盪裝置95震盪後之補充水結合以產生一氫氣水H。更明確地說,由表面具有奈米穿孔之輸出管所排出之氫氧混合氣體G為易溶解之細化氣泡,而經由震盪裝置95震盪後之補充水為易使氣體溶解於其中之補充水。因此透過本發明之氫氧氣體產生器能夠產生溶解較高濃度氫氧的氫氣水H。 Further, the filtered hydrogen-oxygen mixed gas G is input to the humidification device 9 through the second conduit 92 connected to the air outlet 62. The filtered hydrogen-oxygen mixed gas G received by the second conduit 92 is perforated by a plurality of nanometers of the two output tubes 94 to be discharged into the hollow body 90. In practical applications, due to the plurality of nanoperforations on the surface of the output tube 94, it is used to refine the hydrogen-oxygen mixed gas input to the humidification device to form a resolvable refinement bubble. At the same time, the makeup water accommodated in the humidification device 9 is oscillated by the oscillating device 95 to allow the gas to be easily dissolved in the oscillating makeup water. The above-mentioned hydrogen-oxygen mixed gas G discharged from the nano perforation is obtained by the earthquake The replenishing water after the oscillating device 95 is humidified to generate the humidified hydrogen-oxygen mixed gas, and is for the user to inhale, but not limited thereto. In actual application, the humidification device 9 outputs the wetness. The hydrogen-oxygen mixed gas G after the addition can be further mixed with the atomizing gas G2 generated through the atomizing/volatile gas mixing tank 4 to form a health gas for inhalation by the user. Further, the above-described hydrogen-oxygen mixed gas G discharged from the output tube having the nanoperforation on the surface is also combined with the supplementary water oscillated by the oscillating device 95 to generate a hydrogen water H. More specifically, the hydrogen-oxygen mixed gas G discharged from the output tube having the nanoperforation on the surface is a refining refining bubble, and the replenishing water oscillated by the oscillating device 95 is a supplementary water in which the gas is easily dissolved. . Therefore, the hydrogen-oxygen gas generator of the present invention can generate hydrogen water H which dissolves a relatively high concentration of hydrogen and oxygen.

另外,當電解裝置3暫停電解電解水以產生氫氧混合氣體時,第二水汞裝置得用以抽取水箱2內部之氣體以使其內部產生負壓。經由第三導管96補充輸入之補充水W2得藉由上述之負壓由濕化裝置9輸入回設置有電解裝置3之水箱2內。更明確地說,補充水藉由濕化裝置9之第二導管92與冷凝過濾器6之出氣孔62之間的連接得由濕化裝置9輸入至冷凝過濾器6。進一步地,吸附於冷凝過濾器6之循環流道640內之雜質可以藉由上述之補充水經由入氣孔60及導管22回沖至設置有電解裝置3之水箱2內,用以恢復循環流道之過濾能力、防止循環流道之阻塞及腐蝕及減低電解質之消耗。於實務上,本發明係利用補充水將雜質(意即電解質)回沖至設置有電解裝置3之水箱2內,其能用以提供電解裝置3進行電解所需之電解水。更進一步地,補充輸入水箱2之第一中空部20之電解水W得經由電解裝置3之下蓋體38之第二流道380以及複數個下穿孔3202輸入至所對應之電極流道S1,以提供電解裝置3電解時所需之電解水W。 Further, when the electrolysis device 3 suspends electrolytic electrolysis of water to produce a hydrogen-oxygen mixed gas, the second mercury mercury device is used to extract the gas inside the water tank 2 to generate a negative pressure inside thereof. The supplemental water W2 replenished via the third conduit 96 is input from the humidification device 9 back into the water tank 2 provided with the electrolysis device 3 by the above-described negative pressure. More specifically, the connection of the makeup water by the second conduit 92 of the humidification device 9 and the air outlet 62 of the condensing filter 6 is input to the condensing filter 6 by the humidification device 9. Further, the impurities adsorbed in the circulation flow path 640 of the condensing filter 6 can be backflushed into the water tank 2 provided with the electrolysis device 3 through the inlet holes 60 and the conduit 22 by the above-mentioned supplementary water to restore the circulation flow path. The filtration capacity, prevention of blockage and corrosion of the circulation flow path and reduction of electrolyte consumption. In practice, the present invention utilizes makeup water to backflush impurities (i.e., electrolytes) into a water tank 2 provided with an electrolysis device 3, which can be used to provide electrolyzed water required for electrolysis device 3 to perform electrolysis. Further, the electrolyzed water W supplementing the first hollow portion 20 of the input water tank 2 is input to the corresponding electrode flow path S1 via the second flow path 380 of the lower cover 38 of the electrolysis device 3 and a plurality of lower perforations 3202, The electrolyzed water W required for electrolysis of the electrolysis device 3 is provided.

綜合而言,本發明的重點在於提出一種氣體產生器,其包含電解裝置以及濕化裝置。於本發明之氣體產生器中,電解裝置所產生之氫氧混合氣體能夠藉由濕化裝置進行濕化,以提供適合人體吸入之氫氧混合氣體。另外,電解裝置所產生之氫氧混合氣體能夠藉由濕化裝置,以產生溶解較高濃度的氫氧混合氣體之氫氣水,於實際應用時,得視使用者所需以產生具有所需濃度的氫氧混合氣體之氫氣水。此外,藉由本發明之設計能夠用以補充補充水,同時將電解質回沖至電解裝置,用以恢復循環流道之過濾能力、防止循環流道之阻塞和腐蝕以及減低電解質之消耗。 In summary, the focus of the present invention is to propose a gas generator comprising an electrolysis device and a humidification device. In the gas generator of the present invention, the hydrogen-oxygen mixed gas produced by the electrolysis device can be humidified by a humidifying device to provide a hydrogen-oxygen mixed gas suitable for human inhalation. In addition, the hydrogen-oxygen mixed gas generated by the electrolysis device can be used to generate hydrogen water which dissolves a relatively high concentration of the hydrogen-oxygen mixed gas by the humidification device, and in actual application, depending on the user's needs to produce the desired concentration. Hydrogen-oxygen mixed gas of hydrogen water. In addition, the design of the present invention can be used to supplement the makeup water while the electrolyte is backflushed to the electrolysis device to restore the filtration capacity of the circulation flow path, prevent clogging and corrosion of the circulation flow path, and reduce the consumption of the electrolyte.

最後,請參閱圖十八A、圖十八B、圖十九、圖二十A及圖二十B,圖十八A及圖十八B係繪示本發明之氣體產生器於第十五具體實施例中之不同視角的示意圖,圖十九係繪示本發明之氣體產生器於圖十八A中所示實施例中之後視圖,圖二十A及圖二十B係繪示圖十八A所示實施例中僅具有冷凝過濾器及水箱蓋體之俯視圖及沿該俯視圖之D-D線剖設之剖面圖。於第十五具體實施例中,本發明之氣體產生器包含水箱、電解裝置、霧化/揮發氣體混合槽、水泵裝置、冷凝過濾器、冷卻裝置以及濕化裝置。由於上述元件之結構設計已於前面進行說明,故不在此再贅述。更進一步地,相較於圖十四B所示之循環流道,於本實施例中(圖二十B),循環流道640僅藉由兩組流道640a所組成即可達到冷凝的功效,同時能使冷凝過濾器6之設計簡化以及成本降低。另外,於本實施例中,水泵裝置5(未繪示於圖中)、冷凝過濾器6及冷卻裝置7皆整合設置於水箱2之蓋體上,使其成一模組化之設計,同時其相較於第十四具體實施例之設計能更加地節省空間。此外,當模組化之水箱2、水泵裝置5、冷凝過濾器6及冷卻裝置7與霧化/揮發 氣體混合槽4及濕化裝置9組裝時,本發明能具有組裝方便且管路簡化之優點,以使本發明之氣體產生器之整體設計更加地優化。 Finally, please refer to FIG. 18A, FIG. 18B, FIG. 19, FIG. 20A and FIG. 20B. FIG. 18A and FIG. 18B show the gas generator of the present invention in the fifteenth FIG. 19 is a rear view showing the gas generator of the present invention in the embodiment shown in FIG. 18A, and FIG. 20A and FIG. In the embodiment shown in FIG. 8A, there is only a plan view of the condensing filter and the tank cover, and a cross-sectional view taken along line DD of the plan view. In a fifteenth embodiment, the gas generator of the present invention comprises a water tank, an electrolysis device, an atomization/volatile gas mixing tank, a water pump device, a condensing filter, a cooling device, and a humidification device. Since the structural design of the above components has been described above, it will not be described again. Further, compared with the circulation flow path shown in FIG. 14B, in the present embodiment (FIG. 20B), the circulation flow path 640 can be condensed only by the two sets of flow paths 640a. At the same time, the design of the condensing filter 6 can be simplified and the cost can be reduced. In addition, in the embodiment, the water pump device 5 (not shown), the condensing filter 6 and the cooling device 7 are integrated on the cover of the water tank 2 to form a modular design, and at the same time The design is more space efficient than the design of the fourteenth embodiment. In addition, when modularized water tank 2, water pump device 5, condensing filter 6 and cooling device 7 with atomization / volatilization When the gas mixing tank 4 and the humidifying device 9 are assembled, the present invention has the advantages of easy assembly and simplified piping, so that the overall design of the gas generator of the present invention is more optimized.

更進一步地,本發明提出一種氣體產生器,其包含電解裝置以及濕化裝置。於本發明之氣體產生器中,電解裝置所產生之氫氧混合氣體能夠藉由濕化裝置進行濕化,以提供適合人體吸入之氫氧混合氣體。另外,電解裝置所產生之氫氧混合氣體能夠藉由濕化裝置,以產生溶解較高濃度的氫氧混合氣體之氫氣水,於實際應用時,得視使用者所需以產生具有所需濃度的氫氧混合氣體之氫氣水。此外,藉由本發明之設計能夠用以補充補充水,同時將電解質回沖至電解裝置,用以恢復循環流道之過濾能力、防止循環流道之阻塞和腐蝕以及減低電解質之消耗。 Still further, the present invention provides a gas generator comprising an electrolysis device and a humidification device. In the gas generator of the present invention, the hydrogen-oxygen mixed gas produced by the electrolysis device can be humidified by a humidifying device to provide a hydrogen-oxygen mixed gas suitable for human inhalation. In addition, the hydrogen-oxygen mixed gas generated by the electrolysis device can be used to generate hydrogen water which dissolves a relatively high concentration of the hydrogen-oxygen mixed gas by the humidification device, and in actual application, depending on the user's needs to produce the desired concentration. Hydrogen-oxygen mixed gas of hydrogen water. In addition, the design of the present invention can be used to supplement the makeup water while the electrolyte is backflushed to the electrolysis device to restore the filtration capacity of the circulation flow path, prevent clogging and corrosion of the circulation flow path, and reduce the consumption of the electrolyte.

藉由以上較佳具體實施例之詳述,係希望能更加清楚描述本發明之特徵與精神,而並非以上述所揭露的較佳具體實施例來對本發明之範疇加以限制。相反地,其目的是希望能涵蓋各種改變及具相等性的安排於本發明所欲申請之專利範圍的範疇內。雖然本發明已以實施方式揭露如上,然其並非用以限定本發明,任何熟習此技藝者,在不脫離本發明之精神和範圍內,當可作各種之更動與潤飾,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。 The features and spirit of the present invention will be more apparent from the detailed description of the preferred embodiments. On the contrary, the intention is to cover various modifications and equivalents within the scope of the invention as claimed. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention, and the present invention can be modified and modified without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached.

9‧‧‧濕化裝置 9‧‧‧Humidification unit

90‧‧‧中空本體 90‧‧‧ hollow body

92‧‧‧第二導管 92‧‧‧Second catheter

94‧‧‧輸出管 94‧‧‧Output tube

95‧‧‧震盪裝置 95‧‧‧ oscillating device

96‧‧‧第三導管 96‧‧‧ third catheter

98‧‧‧第四導管 98‧‧‧4th catheter

Claims (13)

一種氣體產生器,包含:一電解裝置,容置有一電解水,用以電解該電解水以產生一氫氧混合氣體;以及一濕化裝置,包含有一中空本體、一第二導管、至少一輸出管以及一震盪裝置,該中空本體用以容置一補充水,該第二導管設置於該中空本體上並連接於該電解裝置,用以接收該氫氧混合氣體,該至少一輸出管設置於該中空本體之中並與該第二導管連接,該至少一輸出管之表面具有複數個之奈米穿孔,該震盪裝置設置於該中空本體之中並位於該至少一輸出管之下方,用以震盪該補充水;其中當該電解裝置電解該電解水以產生該氫氧混合氣體時,該氫氧混合氣體經由該至少一輸出管之該複數個奈米穿孔排出,並藉由該震盪裝置震盪後之該補充水以濕化該氫氧混合氣體。 A gas generator comprising: an electrolysis device, accommodating an electrolyzed water for electrolyzing the electrolyzed water to generate a hydrogen-oxygen mixed gas; and a humidification device comprising a hollow body, a second conduit, and at least one output a tube and an oscillating device, the hollow body is configured to receive a supplemental water, the second conduit is disposed on the hollow body and connected to the electrolysis device for receiving the oxy-hydrogen mixed gas, the at least one output tube is disposed on the tube The hollow body is connected to the second conduit, the surface of the at least one output tube has a plurality of nano perforations, and the oscillating device is disposed in the hollow body and located below the at least one output tube for Shaking the makeup water; wherein when the electrolysis device electrolyzes the electrolysis water to generate the hydrogen-oxygen mixed gas, the hydrogen-oxygen mixed gas is discharged through the plurality of nanoperforations of the at least one output tube, and is oscillated by the oscillating device The makeup water is then added to humidify the hydrogen-oxygen mixed gas. 如請求項1所述之氣體產生器,其中經由該至少一輸出管之該複數個奈米穿孔所排出之該氫氧混合氣體可以與該震盪裝置震盪後之該補充水結合而產生一氫氣水。 The gas generator of claim 1, wherein the hydrogen-oxygen mixed gas discharged through the plurality of nanoperforations of the at least one output tube can be combined with the supplementary water after the shaking device to generate a hydrogen water. . 如請求項2所述之氣體產生器,其中該濕化裝置另包含有一第三導管,該第三導管設置於該中空本體上,用以輸出該氫氣水。 The gas generator of claim 2, wherein the humidifying device further comprises a third conduit disposed on the hollow body for outputting the hydrogen water. 如請求項3所述之氣體產生器,其中當該電解裝置暫停電解該電解水以產生該氫氧混合氣體時,該濕化裝置可以補充該補充水,並經由該濕化裝置之該第三導管以輸入該補充水至該濕化裝置之該中空本體內。 The gas generator according to claim 3, wherein when the electrolysis device suspends electrolysis of the electrolyzed water to produce the oxyhydrogen mixed gas, the humidifying device may replenish the replenishing water and pass the third of the humidifying device The conduit is configured to input the makeup water into the hollow body of the humidification device. 如請求項1所述之氣體產生器,其中該濕化裝置另包含有一第四導管,該第四導管設置於該中空本體上,用以輸出經過濕化後之該氫氧混合氣體。 The gas generator of claim 1, wherein the humidifying device further comprises a fourth conduit disposed on the hollow body for outputting the humidified hydrogen-oxygen mixed gas. 如請求項5所述之氣體產生器,另包含一霧化/揮發氣體混合槽,其中該霧化/揮發氣體混合槽連接該濕化裝置之該第四導管,用以接收濕化後之該氫氧混合氣體,其中該霧化/揮發氣體混合槽產生一霧化氣體與濕化後 之該氫氧混合氣體混合,以形成一保健氣體供一使用者吸入,其中該霧化氣體選自於由水蒸汽、霧化藥水、揮發精油及其組合所組成之族群中的一種。 The gas generator according to claim 5, further comprising an atomization/volatile gas mixing tank, wherein the atomization/volatile gas mixing tank is connected to the fourth conduit of the humidifying device for receiving the humidified a mixed gas of hydrogen and oxygen, wherein the atomization/volatilization gas mixing tank generates an atomizing gas and is humidified The oxyhydrogen mixed gas is mixed to form a health care gas for inhalation by a user, wherein the atomizing gas is selected from the group consisting of water vapor, atomized syrup, volatile essential oil, and combinations thereof. 如請求項5所述之氣體產生器,另包含一手持式霧化裝置,其中該手持式霧化裝置連接該濕化裝置之該第四導管,用以接收濕化後之該氫氧混合氣體,其中該手持式霧化裝置產生一霧化氣體與濕化後之該氫氧混合氣體混合,以形成一保健氣體供一使用者吸入,其中該霧化氣體選自於由水蒸汽、霧化藥水、揮發精油及其組合所組成之族群中的一種。 The gas generator of claim 5, further comprising a hand-held atomizing device, wherein the hand-held atomizing device is connected to the fourth conduit of the humidifying device for receiving the humidified hydrogen-oxygen mixed gas The hand atomizing device generates an atomizing gas mixed with the humidified hydrogen-oxygen mixed gas to form a health care gas for inhalation by a user, wherein the atomizing gas is selected from the group consisting of water vapor and atomization. One of a group of syrups, volatile essential oils, and combinations thereof. 如請求項1所述之氣體產生器,另包含有:一冷凝過濾器,設於該電解裝置與該濕化裝置之間,用以冷凝該電解裝置所產生之該氫氧混合氣體同時並過濾該氫氧混合氣體中之一雜質,該冷凝過濾器具有一入氣孔以及一出氣孔,該入氣孔連接於該電解裝置,用以接收該氫氧混合氣體,該出氣孔用以排出過濾後之該氫氧混合氣體;其中該濕化裝置之該第二導管連接於該冷凝過濾器之該出氣孔,用以接收過濾後之該氫氧混合氣體。 The gas generator according to claim 1, further comprising: a condensing filter disposed between the electrolysis device and the humidifying device for condensing and filtering the hydrogen-oxygen mixed gas generated by the electrolyzing device One of the impurities in the hydrogen-oxygen mixed gas, the condensing filter has an air inlet hole and an air outlet hole, and the air inlet hole is connected to the electrolysis device for receiving the hydrogen-oxygen mixed gas, and the air outlet hole is used for discharging the filtered a hydrogen-oxygen mixed gas; wherein the second conduit of the humidifying device is connected to the air outlet of the condensing filter for receiving the filtered mixed gas of hydrogen and oxygen. 如請求項8所述之氣體產生器,其中當該電解裝置暫停電解該電解水以產生該氫氧混合氣體時,該濕化裝置可以補充該補充水,並經由該濕化裝置之該第二導管與該冷凝過濾器之該出氣孔以輸入該補充水,同時該雜質亦可以藉由該補充水經由該冷凝過濾器之該入氣孔回沖至該電解裝置。 The gas generator according to claim 8, wherein when the electrolysis device suspends electrolysis of the electrolyzed water to produce the oxyhydrogen mixed gas, the humidifying device may replenish the replenishing water and pass the second of the humidifying device The conduit and the vent of the condensing filter are used to input the make-up water, and the impurities can also be backflushed to the electrolyzer through the venting port of the condensing filter. 如請求項1所述之氣體產生器,其中該氣體產生器之該氫氧混合氣體之產生流率係介於0.01L/min.與12L/min.之間。 The gas generator according to claim 1, wherein the flow rate of the hydrogen-oxygen mixed gas of the gas generator is between 0.01 L/min. and 12 L/min. 如請求項1所述之氣體產生器,其中該奈米穿孔之尺寸介於2奈米至10奈米的範圍間。 The gas generator of claim 1, wherein the nano perforation has a size ranging from 2 nm to 10 nm. 如請求項1所述之氣體產生器,其中該震盪裝置包含一超音波震盪器以對該補充水進行震盪。 The gas generator of claim 1, wherein the oscillating device comprises an ultrasonic oscillator to oscillate the makeup water. 如請求項1所述之氣體產生器,其中該震盪裝置包含一離心葉片以及連接該離心葉片之一驅動馬達,該驅動馬達係用以驅動該離心葉片旋轉以對該補充水進行震盪及離心。 The gas generator according to claim 1, wherein the oscillating device comprises a centrifugal blade and a driving motor connected to the centrifugal blade, the driving motor is configured to drive the centrifugal blade to rotate to oscillate and centrifuge the supplementary water.
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JP2015204024A JP6225972B2 (en) 2014-10-16 2015-10-15 Gas generator
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