M364711 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種燃料產生裝置,特別是指一種高 安全性之氫氧燃料產生裝置。 【先如技術】M364711 V. New description: [New technical field] The present invention relates to a fuel generating device, and more particularly to a highly safe hydrogen-oxygen fuel generating device. [First as technology]
在工業快速發展的驅使下,地球之天然資源如石油、 煤礦、天然氣等能源也被持續地大量開採,直至近年來, 各國才開始意識到人類無法對有限的自然資源進行無止盡 的開採,進而開始研發可替代之能源,其中,氫氧氣為一 種可進行燃燒,並取代天然氣之氣體。 職氣顧名思義,即是一種具有氮氣及氧氣的混合氣 體’而-般之氫氧氣大多由電解效應所產生。參閱圖工,現 有的氫氧燃料產生裝置·,具有一盛裝有電解水加的電 解槽202、多數片間隔地相連設置在該電解槽2G2内並浸泡 在電解水201中的電極板2〇3, 汉*運接所逑電極板203 的供電源204,當該算雷搞社,一 &增 寺電極板2〇3受到該供電源204之驅動 而導電時’該電解水201即會 氣。 Ρ會通電而電解,進而產生氫氧 ^ , … 孔軋大多是由電解效應產生,因 /、中之虱氣的比例即會偏古 m Η ^ m ± 同,而氣氣又屬於具有高度自 人、、性的軋體,使得具有較离 定的^ ^ 同虱軋含®的氫氧氣是處於不穩 疋的狀態下,相當容易因搖 點燃,並沪直轸震動等外界因素而被意外 卫/口,、輸运管線—路引 # e. , . a 路彳丨燃至虱氧氣儲存槽或是電解 馉内,也就是俗稱之「火 八」現象’而回火現象發生時往 M364711 往會造成爆炸’相當危險。 因此,如何改善一般之氫氧氣產生設備容易產生回火 之,象’以提升氫氧氣在製造、儲存及使用時的安全性, 乃是相關業者亟欲解決的問題之一。 【新型内容】 因此本新型之目的,即在提供一種可有效抑制回火 現象’並具有高安全性及高燃燒效率的氫減燃料產生裝 置。 生裝置,包含: ’及一管路單元 於是,本新型高安全性之氫氧燃料產 一氫氧氣產生單元、一含氧氣體產生單元 該氫氧氣產生單元具有一盛裝有電解水的電解槽、多 數片間隔地相連設置在該電解槽内並浸泡在電解水中的電 極板,及-電連接所述電極板的供m以對電解水塌 電而電解產生氫氧氣。該含氧氣體產生單元是可產生含氧 氣體。該管路單元具有一連通該電解槽以輸送氫氧氣的第 -管路、-連通該含氧氣體產生單元以輸送含氧氣體的第 ,管路,及-用以連通該第一、二管路的第三管路,以使 氫氧氣與含氧氣體混合並輸出。 本新型之功效在於,利用該含氧氣體產生單元產生含 氧氣體,並與該氫氧氣產生單元職生之氫氧氣混合後再 輸出’進而降低輸出氣體之相對氫含量,並提升相對之氧 含量,進而降低輸出氣體因氫氣濃度過高而“然,以藉此 抑制回火現象的發生機率。 M364711 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之—個較佳實施例的詳細說明中,將可 清楚的呈現。 參閱圖2,本新型高安全性之氫氧燃料產生裝置丨之較 佳實施例,包含:一氫氧氣產生單元11、一含氧氣體產生 ~ 單元12 ’及一管路單元13。 - 該氫氧氣產生單元11具有一盛裝有電解水110的電解 > 槽111、多數片間隔地相連設置在該電解槽ui内並浸泡在 電解水110中的電極板i丨2 ,及一電連接所述電極板112的 供電源113,用以對電解水11〇通電而電解產生氫氧氣。 . 該含氧氣體產生單元12則具有一容置有空氣3〇〇的反 應槽121,及一设於該反應槽121内並用以使該空氣3⑽轉 f為臭氧氣的產生器122,在本實施例中,該含氧氣體產生 早凡12為-臭氧機,而該產生器122為一可釋放出紫外線 料線燈1制紫外線將空氣_中之氧氣成分轉換 為臭氧氣,而此一轉換原理應為所屬技術領域中具有通常 知識者所熟悉的技術,在此即不對其原理加以贅述。值得 注意的是,利用紫外線與空氣3〇〇之反應來產生臭氧之方 式,僅為眾多臭氧產生方式之其中之一,當然也可視實際 . 冑施時的情況需要而採用其他的臭氧生成方法,例如採用 電解電擊,或電晕法來產生臭氧因此不應偈限於0 施例所揭露之特定態樣。 另外要注意的是,臭氧氣僅為眾多之含氧氣體的其中 5 M364711 一種,本實施<列當然也可配合使用其他種類之機具來產生 其他種類的含氧氣體,例如以空壓機或製氧機來製造大氣 空氣或純氧等等。而純氧氣的產生可利用一容置 納溶液的反應槽,並分別將一陰極電極板及—陽極電極板 間隔設置在該反應槽内並浸泡在該氯氧化納溶液中,再藉 由一電連接該陰極電極板陽及該陽極電極板的供電源以用曰 以對氫氧化鈉溶液通電而電解,進而於陽極處產生氧氣並 予以收集,而此種氧氣製造方法為業界中慣用之技術,應 為所屬技術領域中具有通常知識者所能夠輕易實施者,在 此即不加以贅述,亦未於圖式中表示。當然,這也僅是眾 多氧氣數造的方法之―,其他等效的氧氣生成方式亦可。 该管路單元13具有—連通該電解槽lu以輸送氯氧氣 的第一管路131、一連通該反應肖121以輸送含氧氣體(本 實施,中即為臭氧氣)的第二管路132、一用以連通該第一 、二管路131、132的第三管路133、一設置於該第三管路 133上的成份指示器134、一設於該第一管路η〗上的第一 閥門135、一設於該第二管路132上的第二閥門ΐ3ό,及一 設於該第三管路133上的第三閱門137,其中,該第三管路 133是用來使氫氧氣與含氧氣體混合後再輸出。輸出之混合 後的氯氧氣與含氧氣體即可提供至外界裝置100使用,而 該外界裝置10◦可為一切割機(圖2)、氫氧廚具(圖3),或燃 燒機(圖4)等等,或是為一儲存裝置或氫氧燃料電池以進行 氣體燃料的儲存’端視實際實施時的應用而定,在此並不 加以設限。 M364711Driven by the rapid development of the industry, the earth's natural resources such as oil, coal, natural gas and other energy sources have been continuously exploited. Until recently, countries have begun to realize that human beings cannot carry out endless exploitation of limited natural resources. In turn, research and development of alternative energy sources, in which hydrogen and oxygen is a gas that can be burned and replaced with natural gas. As the name implies, it is a mixture of nitrogen and oxygen. The hydrogen and oxygen are mostly produced by the electrolysis effect. Referring to the drawing, the existing oxyhydrogen fuel generating device has an electrolytic cell 202 containing electrolytic water addition, and a plurality of electrode plates 2 〇 3 which are disposed in the electrolytic cell 2G2 at intervals and immersed in the electrolytic water 201. , the power supply 204 of the electrode plate 203 of the * 运 运 运 , , , , , , , 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑 逑. Ρ will be energized and electrolyzed, and then produce hydrogen and oxygen ^, ... hole rolling is mostly caused by the electrolysis effect, because the ratio of helium in /, will be the same as the ancient m Η ^ m ± the same, and the gas is highly The human and the rolling body make the hydrogen and oxygen with the more than the same ^ ^ rolling in the unstable state, which is quite easy to be ignited by shaking, and the external factors such as the vibration of Shanghai and the like are unexpected. Guard / mouth, transport pipeline - road lead # e. , . a road ignited to the 虱 oxygen storage tank or electrolytic ,, also known as the "fire eight" phenomenon and tempering occurs M364711 will cause an explosion 'is quite dangerous. Therefore, how to improve the general hydrogen and oxygen generating equipment is prone to tempering, such as to improve the safety of hydrogen and oxygen in the manufacture, storage and use, is one of the problems that the relevant industry is eager to solve. [New content] Therefore, the object of the present invention is to provide a hydrogen fuel reduction generating device which can effectively suppress tempering phenomenon and has high safety and high combustion efficiency. The raw device comprises: 'and a pipe unit, then the high-safety hydrogen-oxygen fuel producing hydrogen-oxygen generating unit, an oxygen-containing gas generating unit, the hydrogen-oxygen generating unit has an electrolytic cell containing electrolyzed water, A plurality of sheets are intermittently connected to the electrode plates disposed in the electrolytic cell and immersed in the electrolyzed water, and - electrically connected to the electrode plates to electrolyze hydrogen and oxygen by electrolysis of the electrolyzed water. The oxygen-containing gas generating unit generates an oxygen-containing gas. The pipe unit has a first pipe connecting the electrolytic cell to transport hydrogen and oxygen, a first pipe connecting the oxygen-containing gas generating unit to transport the oxygen-containing gas, a pipe, and - for connecting the first and second pipes The third line of the road is such that hydrogen and oxygen are mixed with the oxygen-containing gas and output. The utility model has the advantages that the oxygen-containing gas generating unit generates the oxygen-containing gas and mixes with the hydrogen-oxygen generating unit of the hydrogen-oxygen generating unit, and then outputs the product, thereby reducing the relative hydrogen content of the output gas and increasing the relative oxygen content. Further, the output gas is reduced because the hydrogen concentration is too high, thereby suppressing the occurrence of the tempering phenomenon. M364711 [Embodiment] The foregoing and other technical contents, features, and effects of the present invention are incorporated in the following reference drawings. A detailed description of a preferred embodiment will be apparent. Referring to Figure 2, a preferred embodiment of the present high-safety oxy-hydrogen fuel generating device includes: a hydrogen-oxygen generating unit 11, The oxygen-containing gas generates a unit 12' and a piping unit 13. The hydrogen-oxygen generating unit 11 has an electrolysis tank 111 containing electrolyzed water 110, and a plurality of sheets are intermittently connected in the electrolysis tank ui and soaked. An electrode plate i丨2 in the electrolyzed water 110, and a power supply 113 electrically connected to the electrode plate 112 are used to electrolyze the electrolyzed water 11 to electrolyze hydrogen and oxygen. The oxygen-containing gas generating unit 12 has a reaction tank 121 for accommodating air 3〇〇, and a generator 122 disposed in the reaction tank 121 for rotating the air 3(10) into ozone gas, in this embodiment. Wherein, the oxygen-containing gas generates an early 12-ozone machine, and the generator 122 is a ultraviolet light source lamp 1 that emits ultraviolet light to convert the oxygen component in the air to ozone gas, and the conversion principle should be For the technology familiar to those skilled in the art, the principle is not described here. It is worth noting that the method of generating ozone by the reaction of ultraviolet rays and air is only a large number of ozone generation methods. One of them, of course, may also be based on actual conditions. Other ozone generation methods, such as electrolytic shocks or corona methods, are used to generate ozone, and therefore should not be limited to the specific aspects disclosed in the example. It should also be noted that the ozone gas is only 5 M364711 of the many oxygen-containing gases. This embodiment can also be used in conjunction with other types of machines to produce other types of The gas, for example, an air compressor or an oxygen generator to produce atmospheric air or pure oxygen, etc., and pure oxygen can be generated by using a reaction tank for accommodating the solution, and respectively separating a cathode electrode plate and an anode electrode plate. Provided in the reaction tank and immersed in the sodium oxychloride solution, and then electrically connected to the anode electrode plate and the anode electrode plate by a power supply for electrolysis of the sodium hydroxide solution by electrolysis, thereby Oxygen is generated at the anode and collected, and the oxygen production method is a technique commonly used in the industry, and should be easily implemented by those having ordinary knowledge in the art, and will not be described here or in the drawings. Of course, this is only a method of making a large number of oxygen numbers, and other equivalent oxygen generation methods are also possible. The pipeline unit 13 has a first conduit 131 that communicates with the electrolytic cell lu to transport chlorine and oxygen, a second conduit 132 that communicates with the reaction chamber 121 to deliver an oxygen-containing gas (in this embodiment, ozone gas), a third conduit 133 for communicating the first and second conduits 131, 132, and a Set on a component indicator 134 on the third line 133, a first valve 135 disposed on the first line η, a second valve 设3ό disposed on the second line 132, and a The third reading door 137 on the third line 133 is configured to mix the hydrogen and oxygen with the oxygen-containing gas before outputting. The output of the mixed chlorine oxygen and oxygen-containing gas can be supplied to the external device 100, and the external device 10 can be a cutting machine (Fig. 2), a hydrogen-oxygen kitchenware (Fig. 3), or a burner (Fig. 4). And so on, or for a storage device or a oxy-hydrogen fuel cell for the storage of gaseous fuels, depending on the application in actual implementation, and is not limited herein. M364711
本實施例是利用該第一、二閥門135、136來控制該第 一、二管路131、132内的氣體流量,以調控流入該第三/管 路133内的氫氧氣與含氧氣體分別佔整體體積的百分比, 該成份指示器134則可以立刻顯示該第三管路133内的氫 氧氣與含氧氣體分別佔整體體積的百分比,作為操作上S 參考,最後再利用該第三閥η 137來控制該第三管路133 送入外界裝置100的氣體流量。 在此要注意的是,在本實施例中,是將氫氧氣之含量 控制在佔整體輸出氣體的70〜9〇%,而含氧氣體則是佔整體 含量的10〜30%。 據此,本實施例即可藉由 輸出氣體中氫含量,以降低因 ,且額外之氧含量亦具有助燃 體輸出氣體之燃燒效果。 3乳氣體的存在而降低整體 虱氣自燃而造成回火的機率 之效果,更可進一步提升整 藉由上述設計 ’具有下列優點: 本新型高安全性之氫氧燃料產生裝置i ι·使用安全性高: 藉由⑦含軋氣體產生單元12所產生之臭氧於 第三管路133中與該氫氧氣產生單元U之氫氧氣 混合,使整體輸出之氣體燃料係具有氫氧氣及 氣體’藉此降低整體輸出氣龍料之氫氣含量 ^有效降低因氫氣之高自燃性所造成之回火現 =發生機率’以提升本㈣的使用安全性。 2 ·燃燒效率佳: M364711 整體輸出氣體中的額外氧含量亦具有助燃之效 用’因此混合有氫氧氣及含氧氣體t氣體燃料除了 可有效抑制回火的現象外’亦具有較佳的燃燒效率 歸納上述,本新型高安全性之氫氧燃料產生裝置1,利 用該含氧氣體產生單元12產生含氧氣體(臭氧氣),並與該 氫氧氣產生單元u所產生之氫氧氣混合後再輸出,進而降 低輸出氣體之相對氫含量,並提升相對1含量,進而降低 輸出氣體因氫氣濃度過高而自燃的機會,以藉此抑制回火 現象的發生,同時藉由較高之氧含量來加強燃燒效果,故 確實能達到本新型之目的。 惟以上所述者,僅為本新型之較佳實施例而已,當不 能以此限定本新型實施之範圍,即大凡依本新型申請^利 範圍及新型說明内容所作之簡單的等效變化與修飾,皆仍 屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 圖 1是-裝置示意圖’說明習知的一氫氧氣產生裝置 圖2是-裝置示意圖,說明本新型高安全性之氣氧燃 料產生裝置之較佳實施例的結構示意,及其與—外界裝置 切割機)之間的配置情形; 圖3是-裝置示意圖,說明該較佳實施例與另一外界 裝置(氫氧廚具)之間的配置情形;及 圖4是-裝置示意圖,說明該較佳實施例與又一外界 M364711 裝置(燃燒機)之間的配置情形。 M364711 【主要元件符號說明】 1 ....... …氫氧燃料產生裝 13…… …管路單元 置 131 ··· …·第一管路 11…… •…氫氧氣產生單元 132 ··· …第二管路 110… …電解水 133 .... …第三管路 111… •…電解槽 134 …. …·成份指示器 112… •…電極板 135 ···. •…第一閥門 113… …·供電源 136 ·.·. •…第二閥門 12…… •…含氧氣體產生單 137… …·第三閥門 元 100 ... …·外界裝置 121 ·· •…反應槽 300… …空氣 122… •…產生器 10In this embodiment, the first and second valves 135 and 136 are used to control the flow rate of the gas in the first and second conduits 131 and 132 to regulate the hydrogen and oxygen and the oxygen-containing gas flowing into the third/pipeline 133, respectively. As a percentage of the overall volume, the component indicator 134 can immediately display the percentage of hydrogen oxygen and oxygen-containing gas in the third conduit 133 as a whole, as an operational S reference, and finally use the third valve η. 137 is used to control the flow rate of the gas sent to the external device 100 by the third line 133. It should be noted here that in the present embodiment, the content of hydrogen and oxygen is controlled to 70 to 9 % of the total output gas, and the oxygen-containing gas is 10 to 30% of the total content. Accordingly, the present embodiment can reduce the cause by the hydrogen content in the output gas, and the additional oxygen content also has the combustion effect of the combustion-supporting gas. 3 The presence of milk gas reduces the probability of igniting due to the spontaneous combustion of the entire helium gas, and can further enhance the overall design by the above design's advantages: The new high-safety oxyhydrogen fuel generating device i ι·safe use High: The ozone generated by the nitrogen-containing gas generating unit 12 is mixed with the hydrogen and oxygen of the hydrogen-oxygen generating unit U in the third line 133, so that the gaseous fuel of the whole output has hydrogen, oxygen and gas. Reduce the hydrogen content of the overall output gas dragon material ^ effectively reduce the tempering caused by the high spontaneous combustion of hydrogen gas = the probability of occurrence 'to improve the safety of this (four). 2 · Good combustion efficiency: M364711 The extra oxygen content in the overall output gas also has the effect of combustion-supporting. Therefore, hydrogen gas and oxygen-containing gas are mixed. In addition to the phenomenon that tempering can be effectively suppressed, it also has better combustion efficiency. In summary, the high-safety oxy-hydrogen fuel generating device 1 of the present invention generates an oxygen-containing gas (ozone gas) by using the oxygen-containing gas generating unit 12, and mixes it with hydrogen and oxygen generated by the hydrogen-oxygen generating unit u before outputting , thereby reducing the relative hydrogen content of the output gas and increasing the relative content of 1, thereby reducing the chance of spontaneous combustion of the output gas due to excessive hydrogen concentration, thereby suppressing the occurrence of tempering and strengthening by a higher oxygen content. The burning effect can indeed achieve the purpose of this new type. However, the above is only the preferred embodiment of the present invention, and the scope of the novel implementation cannot be limited thereto, that is, the simple equivalent change and modification of the novel application scope and the novel description content. , are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a device for illustrating a conventional hydrogen-oxygen generating device. FIG. 2 is a schematic view of a device, illustrating a structural schematic of a preferred embodiment of the novel high-safety gas-oxygen fuel generating device. And the arrangement between the device and the external device cutting machine; FIG. 3 is a schematic view of the device, illustrating the arrangement between the preferred embodiment and another external device (hydrogen oxygen kitchen); and FIG. 4 is a device Schematic diagram showing the configuration between the preferred embodiment and another external M364711 device (combustor). M364711 [Description of main component symbols] 1. Hydrogen-oxygen fuel generating device 13... Pipeline unit setting 131 ·····First pipe 11...•...Hydrogen oxygen generating unit 132 · ··...Second line 110...electrolyzed water 133 .......third line 111...•...electrolyzer 134 .....·component indicator 112... •...electrode plate 135 ···. A valve 113...the power supply 136 ·.....the second valve 12...the oxygen-containing gas generating unit 137...the third valve element 100...the external device 121···...the reaction Slot 300...air 122...?...producer 10