TWM622111U - Electrolytic bath device capable of separating hydrogen and oxygen - Google Patents
Electrolytic bath device capable of separating hydrogen and oxygen Download PDFInfo
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- Y—GENERAL 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
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Abstract
一種可分離氫氣與氧氣之電解槽裝置,包含一槽體及一設置於該槽體的電極單元。該槽體包括一底壁、一由該底壁延伸的圍繞壁、一連接該圍繞壁的頂壁,及一個連接該圍繞壁且與該底壁相間隔的隔板。該隔板將該槽體內的空間分隔為一位於該隔板外的盛裝空間,及一位於該隔板內的逸散空間。該盛裝空間區分為位於該隔板兩側的一第一分隔區域及一第二分隔區域。該電極單元包括一位於該第一分隔區域的陰極件及一位於該第二分隔區域的陽極件,該陽極件與該陰極件皆穿設該頂壁。透過該逸散空間能有效地擋止氫氣通過,以避免氫氣與氧氣混合的情況發生。An electrolytic cell device capable of separating hydrogen and oxygen, comprising a cell body and an electrode unit arranged in the cell body. The trough body includes a bottom wall, a surrounding wall extending from the bottom wall, a top wall connected with the surrounding wall, and a partition connected with the surrounding wall and spaced from the bottom wall. The partition divides the space in the tank into a containing space outside the partition and an escape space inside the partition. The accommodating space is divided into a first partition area and a second partition area located on both sides of the partition. The electrode unit includes a cathode member located in the first separation area and an anode member located in the second separation area, and both the anode member and the cathode member pass through the top wall. Through the escape space, the passage of hydrogen can be effectively blocked, so as to avoid the mixing of hydrogen and oxygen.
Description
本新型是有關於一種電解槽裝置,特別是指一種可分離氫氣與氧氣之電解槽裝置。The new model relates to an electrolytic cell device, especially an electrolytic cell device capable of separating hydrogen and oxygen.
參閱圖1,為一種習知的電解槽裝置,適用於處理一電解液,且包含一個界定出一盛裝空間的槽體11、一個安裝於該槽體11的直流電單元12,及一個穿設於該槽體11的收集單元13。該槽體11包括一個底壁111、一個由該底壁111之周緣向上延伸的周壁112,及一個左右兩端卡於該周壁112,並與該底壁111相間隔的隔板113。該直流電單元12包括穿設於該周壁112且分別位於該隔板113之兩側的一陰極件121及一陽極件122。該收集單元13包括二連通該盛裝空間且分別位於該隔板113之兩側的輸出管131。藉由該隔板113將該陰極件121與該陽極件122分隔兩處之設計,即能在電解該電解液時,避免所產生的氫氣與氧氣混合的情況發生,接著再透過該等輸出管131分別收集高濃度的氫氣與氧氣,進而防止自燃性氣體與助燃性氣體混合而發生爆炸的意外。然而,由於氫氣的穿透性較強,但該隔板113為單層介質,並無法有效地擋止氫氣,以至於在電解時氫氣有可能穿過該隔板113而與氧氣接觸,當該槽體11內溫度較高時,則會有可能發生爆炸的情況。因此,在有限的成本下,如何改良上述之結構,以避免氫氣與氧氣的混合情況發生,已成為業者努力的目標。Referring to FIG. 1, it is a conventional electrolytic cell device, suitable for processing an electrolyte, and comprising a
因此,本新型之目的,即在提供一種能分別收集高濃度氧氣與氫氣,且能避免氧氣與氫氣混合而達到安全作業的可分離氫氣與氧氣之電解槽裝置。Therefore, the purpose of the present invention is to provide an electrolytic cell device capable of separately collecting high-concentration oxygen and hydrogen, and avoiding the mixing of oxygen and hydrogen to achieve safe operation.
於是,本新型可分離氫氣與氧氣之電解槽裝置,適用於盛裝一電解液,且包含一槽體,及設置於該槽體的一電極單元與一收集單元。該槽體包括一個底壁、一個由該底壁之周緣向上延伸的圍繞壁、一個連接該圍繞壁之頂緣的頂壁,及一個兩端連接該圍繞壁,且與該底壁相間隔的隔板。該隔板具有二由該頂壁往該底壁之方向間隔延伸的側部,及一銜接該等側部之底端的底部。該隔板將該槽體內的空間分隔為一位於該隔板外且用以盛裝該電解液的盛裝空間,及一位於該隔板內的逸散空間。該盛裝空間區分為位於該隔板兩側的一第一分隔區域及一第二分隔區域。該第一分隔區域之體積大於該第二分隔區域之體積。該電極單元包括一位於該第一分隔區域的陰極件、一位於該第二分隔區域的陽極件,及一電性連接該陰極件與該陽極件的電輸出器。該陰極件與該陽極件皆穿設該頂壁並往該底壁之方向延伸。該收集單元包括一設置於該圍繞壁且連通該第一分隔區域的第一輸出管,及一設置於該圍繞壁且連通該第二分隔區域的第二輸出管。Therefore, the novel electrolytic cell device capable of separating hydrogen and oxygen is suitable for containing an electrolyte, and includes a cell body, an electrode unit and a collection unit disposed in the cell body. The trough body includes a bottom wall, a surrounding wall extending upward from the periphery of the bottom wall, a top wall connected to the top edge of the surrounding wall, and a top wall connected to the surrounding wall at both ends and spaced from the bottom wall clapboard. The partition has two side portions extending from the top wall to the bottom wall at intervals, and a bottom portion connected to the bottom ends of the side portions. The separator divides the space in the tank into a holding space outside the separator and used to hold the electrolyte, and an escape space inside the separator. The accommodating space is divided into a first partition area and a second partition area located on both sides of the partition. The volume of the first partition area is larger than the volume of the second partition area. The electrode unit includes a cathode member located in the first separation region, an anode member located in the second separation region, and an electrical output device electrically connecting the cathode member and the anode member. Both the cathode member and the anode member pass through the top wall and extend toward the bottom wall. The collecting unit includes a first output pipe disposed on the surrounding wall and communicated with the first separation area, and a second output pipe disposed on the surrounding wall and communicated with the second separation area.
本新型之功效在於:透過該隔板內所形成的該逸散空間,能形成一道空氣門,藉此阻止氫氣由該第一分隔區域穿過該隔板至該第二分隔區域,進而避免自燃性氣體與助燃性氣體混合的情況發生,再配合該第一輸出管與該第二輸出管分別設置於該第一分隔區域與該第二分隔區域的設計,及電解氣體之比重小於水的原理,便能分別收集高濃度的氫氣與氧氣,以達到安全的電解及收集作業。The effect of the new type is: through the escape space formed in the partition, an air door can be formed, thereby preventing hydrogen from passing through the partition from the first partition area to the second partition area, thereby preventing spontaneous combustion The mixing of the volatile gas and the combustion-supporting gas occurs, and the design that the first output pipe and the second output pipe are respectively arranged in the first separation area and the second separation area, and the principle that the specific gravity of the electrolytic gas is less than that of water , can collect high concentrations of hydrogen and oxygen respectively, in order to achieve safe electrolysis and collection operations.
參閱圖2至圖5,為本新型可分離氫氣與氧氣之電解槽裝置之一實施例,適用於盛裝一電解液L以進行電解。該實施例包含一盛裝該電解液L的槽體2,及設置於該槽體2的一電極單元3與一收集單元4。Referring to FIG. 2 to FIG. 5 , it is an embodiment of a novel electrolytic cell device capable of separating hydrogen and oxygen, which is suitable for containing an electrolyte L for electrolysis. This embodiment includes a
該槽體2包括一個底壁21、一個由該底壁21之周緣向上延伸的圍繞壁22、一個連接該圍繞壁22之頂緣的頂壁23、一個兩端連接該圍繞壁22且與該底壁21相間隔的隔板24、一可拆離地連接該頂壁23的蓋子25,及一設置於該底壁21與該隔板24之間的擋板26。該隔板24具有二由該頂壁23往該底壁21之方向間隔延伸的側部241,及一銜接該等側部241之底端並與該底壁21相間隔的底部242。特別需要說明的是,該圍繞壁22、該頂壁23與該隔板24為一體成形,而該底壁21則透過超音波連接的方式固設在該圍繞壁22上,因此在製造上較為方便,且在結構上也較為堅固。此外,定義一垂直通過該底壁21與該頂壁23,並與該圍繞壁22平行的軸向方向D。該擋板26較佳為實心板而能用以擋止氣體通過,且其頂緣與底緣分別銜接該隔板24與該底壁21。在該實施例中,該擋板26之一端銜接該圍繞壁22,而另一端則與該圍繞壁22相間隔,且該擋板26之寬度如圖4所示地大於該底壁21之寬度的一半。The
在該實施例中,該隔板24將該槽體2內的空間分隔為一位於該隔板24外且用以盛裝該電解液L的盛裝空間201,及一位於該隔板24內且能供氣體流動的逸散空間202。在該實施例中,該盛裝空間201與該逸散空間202之間不相通,使得該電解液L無法由該盛裝空間201經該隔板24至該逸散空間202中。該盛裝空間201區分為位於該隔板24一側的一第一分隔區域E1、一位於該隔板24另一側而與該第一分隔區域E1相間隔的第二分隔區域E2,及一由該底壁21、該圍繞壁22、該隔板24之底部242與該擋板26圍繞界定而成,並連通該第一分隔區域E1與該第二分隔區域E2的流通區域E3。其中,該第一分隔區域E1之體積,係大於該第二分隔區域E2之體積。另外需要說明的是,該頂壁23形成一連通該盛裝空間201,並形成內螺紋而能供該蓋子25螺接的注水口230,而該蓋子25能被操作地螺接於該頂壁23,藉此封住該注水口230。該注水口230位於該頂壁23的設計,能在不需要拆解該圍繞壁22與該頂壁23情況下,便能補充該電解液L,進一步提升便利性。In this embodiment, the
該電極單元3包括一位於該第一分隔區域E1的陰極件31、一位於該第二分隔區域E2的陽極件32,及一電性連接該陰極件31與該陽極件32並提供電力的電輸出器33。該陰極件31與該陽極件32皆穿設該頂壁23,且往該底壁21之方向並沿該軸向方向D延伸,而與該隔板24之該等側部241及該圍繞壁22相互平行。其中,該陽極件32的長度大於該陰極件31的長度,使得該陽極件32與該陰極件31的長度比為2.5~3:1,其長度差異較能防止該陽極件32生鏽,進一步地提升電解的效能。在該實施例中,該陽極件32沿該軸向方向D的長度大於該隔板24而有較佳的電解效率且如圖4所示地設置於中央處,使其尾端所產生的氣體會受到該擋板26擋止,但該實施例並不以此設置位置為限,只要該陽極件32所產生的氣體不會流動至該第一分隔區域E1即可。另外需要說明的是,由該底壁21沿該軸向方向D往上至該隔板24之底部242的距離,大於由該底壁21沿該軸向方向D往上至該陰極件31之底端的距離,也就是說,該陰極件31沿該軸向方向D的長度,小於任一側部241沿該軸向方向D的長度,使得所產生的氣體受到該隔板24的擋止,而無法側向流動至該第二分隔區域E2。該陽極件32沿該軸向方向D的長度,可如圖2所示小於任一側部241沿該軸向方向D的長度,亦可依照需求大於或等於任一側部241沿該軸向方向D的長度,該實施例並不以此為限。The
該收集單元4包括一穿設於該圍繞壁22且連通該第一分隔區域E1的第一輸出管41、一穿設於該圍繞壁22且連通該第二分隔區域E2的第二輸出管42、二分別連通該第一輸出管41與該第二輸出管42的潮濕瓶43,及一連通該等潮濕瓶43的連接閥44。由於該第一輸出管41與該第二輸出管42設置於該圍繞壁22上的設計,進而與該電極單元3在空間位置上錯開,便能避免線路及導線混雜交錯的情況,進而提升使用安全性。另外需要說明的是,該第一輸出管41與該第二輸出管42的設置位置,並不會影響該陰極件31與該陽極件32的設置位置及尺寸,使得該陰極件31與該陽極件32的外徑尺寸能依照該頂壁23的規格達到最佳化。此外,該實施例不以該等潮濕瓶43與該連接閥44之設置為必要,可依照使用需求而進行調整。The
以下將以該電解液L選擇為水作為範例,以利說明該實施例的運作狀況。首先,操作該蓋子25而脫離該頂壁23,並將該電解液L經該注水口230填入至該盛裝空間201內,當該陰極件31與該陽極件32浸至於該電解液L即可再操作該蓋子25螺接於該頂壁23以封住該注水口230,便能進行後續的電解作業。接著,驅動該電輸出器33,以提供電力於該陰極件31與該陽極件32。於是,該陰極件31與周圍之該電解液L發生還原反應,使周圍之該電解液L得到電子,進而在該陰極件31的周圍生成高濃度的氫氣G1;該陽極件32與周圍之該電解液L發生氧化反應,使周圍之該電解液L失去電子,進而在該陽極件32的周圍生成高濃度的氧氣G2。藉由氣體的比重小於水的原理,待所述氫氣G1與所述氧氣G2分別在該第一分隔區域E1與該第二分隔區域E2沿圖5之箭頭之方向往上浮起,再分別透過該第一輸出管41與該第二輸出管42加以收集。最後,由於該電解液L透過該流通區域E3流通該第一分隔區域E1與該第二分隔區域E2的設計,以平衡該第一分隔區域E1及該第二分隔區域E2的酸鹼度及電性。需要特別注意的是,該電解液L的液面不能高於該第一輸出管41與該第二輸出管42在該圍繞壁22上的連通口處,避免該電解液L流入該第一輸出管41與該第二輸出管42內。另外需要說明的是,基於該電解液L的種類而可以調整該第一分隔區域E1與該第二分隔區域E2間的體積比例。在該實施例中,配合所述氫氣G1與所述氧氣G2所生的總莫耳數,可以將該第一分隔區域E1與該第二分隔區域E2的體積比例設計成2:1。In the following, the electrolyte L is selected as water as an example, so as to illustrate the operation of this embodiment. First, operate the
值得一提的是,在電解該電解液L的過程中,在該陰極件31之周圍產生的所述氫氣G1,即使穿過鄰近之該側部241,也只會在該逸散空間202內繼續往上自然浮動,而不會有驅動力再穿過另一個側部241而至該第二分隔區域E2內與所述氧氣G2混合,且因為該陰極件31的長度小於該隔板24的長度,使得所產生的所述氫氣G1更不可能往下浮動,並經該流通區域E3至該第二分隔區域E2。也就是說,該隔板24所形成的該逸散空間202能形成一道空氣門,以阻止所述氫氣G1繼續由該第一分隔區域E1側向流動至該第二分隔區域E2,避免自燃性氣體與助燃性氣體混合而產生爆炸的情況發生,達到安全的電解及收集作業。再者,透過該陰極件31與該陽極件32平行該隔板24之方向穿設於該頂壁23的設計,在安裝及操作上較為方便。再者,由於該擋板26為實心板,且位於該底壁21與該隔板24之間,能如圖4所示地進一步擋止該陽極件32所產生的氣體流通至該第一分隔區域E1,以避免氣體混合的情況發生,而位於該擋板26旁的該流通空間E3則可供該電解液L流通,進而達到平衡。It is worth mentioning that, in the process of electrolyzing the electrolyte L, the hydrogen gas G1 generated around the
另外需要說明的是,該實施例具有多種應用方式,例如,透過呼吸高濃度的所述氧氣G2來消除運動員的疲勞,或是透過吸取高濃度的所述氫氣G1以達到保健效果。因此,當需要呼吸高濃度的所述氫氣G1時,就能透過該第一輸出管41加以吸取,並藉由相對應之該潮濕瓶43以提供足夠的溼氣讓呼吸時不至於太乾燥,避免吸取時因乾燥而造成不適。同理,當需要呼吸高濃度的所述氧氣G2時,可利用該第二輸出管42吸取。此外,若想同時呼吸高濃度的所述氫氣G1與所述氧氣G2時,則可透過該連接閥44,以同時吸取所述氫氣G1與所述氧氣G2。其中,由於所述氫氣G1與所述氧氣G2離開該槽體2,再分別經過該等潮濕瓶43後,其自身溫度將降低許多而能避免爆炸的情況,藉此達到安全地同時呼吸兩種氣體的功效。In addition, it should be noted that this embodiment has various application modes, for example, the fatigue of athletes can be eliminated by breathing the high concentration of the oxygen G2, or the health care effect can be achieved by absorbing the high concentration of the hydrogen G1. Therefore, when it is necessary to breathe the high concentration of the hydrogen gas G1, it can be sucked through the
綜上所述,本新型可分離氫氣與氧氣之電解槽裝置透過該等側部241與該底部242所間隔形成的該逸散空間202,能阻止所述氫氣G1由該第一分隔區域E1穿過該隔板24至該第二分隔區域E2,進而避免自燃性氣體與助燃性氣體混合的情況發生,又能分別收集高濃度的所述氫氣G1與所述氧氣G2,以達到安全的電解及收集作業,故確實能達成本新型之目的。To sum up, the novel electrolytic cell device capable of separating hydrogen and oxygen can prevent the hydrogen gas G1 from passing through the first separation region E1 through the
惟以上所述者,僅為本新型之實施例而已,當不能以此限定本新型實施之範圍,凡是依本新型申請專利範圍及專利說明書內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內。However, the above are only examples of the present invention, which should not limit the scope of the present invention. Any simple equivalent changes and modifications made according to the scope of the patent application for this new model and the contents of the patent specification are still within the scope of the present invention. within the scope of this new patent.
2:槽體 201:盛裝空間 202:逸散空間 21:底壁 22:圍繞壁 23:頂壁 230:注水口 24:隔板 241:側部 242:底部 25:蓋子 26:擋板 3:電極單元 31:陰極件 32:陽極件 33:電輸出器 4:收集單元 41:第一輸出管 42:第二輸出管 43:潮濕瓶 44:連接閥 D:軸向方向 E1:第一分隔區域 E2:第二分隔區域 E3:流通區域 G1:氫氣 G2:氧氣 L:電解液 2: tank body 201: Dressing Space 202: Escape space 21: Bottom wall 22: Surrounding the Wall 23: Top Wall 230: water injection port 24: Separator 241: Side 242: Bottom 25: Lid 26: Baffle 3: Electrode unit 31: Cathode parts 32: Anode parts 33: Electric output device 4: Collection unit 41: The first output tube 42: The second output tube 43: Wet Bottle 44: Connection valve D: Axial direction E1: The first separation area E2: Second partition area E3: Circulation area G1: Hydrogen G2: Oxygen L: electrolyte
本新型之其它的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中: 圖1是一側視角度的剖視示意圖,說明一種習知的電解槽裝置; 圖2是一側視角度的剖視示意圖,說明本新型可分離氫氣與氧氣之電解槽裝置之一實施例; 圖3是一俯視角度的剖視示意圖,進一步說明該實施例之一槽體、一電極單元及一收集單元之間的設置關係; 圖4是一側視角度的剖視圖,說明該槽體之一隔板與一擋板間的位置關係;及 圖5是一示意圖,說明該實施例之氫氣與氧氣之流動情況。 Other features and effects of the present invention will be clearly presented in the embodiments with reference to the drawings, wherein: 1 is a schematic cross-sectional view of a side view, illustrating a conventional electrolytic cell device; 2 is a schematic cross-sectional view from a side view angle, illustrating an embodiment of the novel electrolytic cell device capable of separating hydrogen and oxygen; 3 is a schematic cross-sectional view of a top view, further illustrating the arrangement relationship among a tank body, an electrode unit and a collection unit in this embodiment; Figure 4 is a sectional view from a side view, illustrating the positional relationship between a baffle plate and a baffle plate of the tank body; and FIG. 5 is a schematic diagram illustrating the flow of hydrogen and oxygen in this embodiment.
2:槽體 2: tank body
201:盛裝空間 201: Dressing Space
202:逸散空間 202: Escape space
21:底壁 21: Bottom wall
22:圍繞壁 22: Surrounding the Wall
23:頂壁 23: Top Wall
230:注水口 230: water injection port
24:隔板 24: Separator
241:側部 241: Side
242:底部 242: Bottom
25:蓋子 25: Lid
26:擋板 26: Baffle
3:電極單元 3: Electrode unit
31:陰極件 31: Cathode parts
32:陽極件 32: Anode parts
33:電輸出器 33: Electric output device
41:第一輸出管 41: The first output tube
42:第二輸出管 42: The second output tube
D:軸向方向 D: Axial direction
E1:第一分隔區域 E1: The first separation area
E2:第二分隔區域 E2: Second partition area
G1:氫氣 G1: Hydrogen
G2:氧氣 G2: Oxygen
L:電解液 L: electrolyte
Claims (10)
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