TWI738181B - Multi-core high-efficiency hydrogen and oxygen generator - Google Patents

Multi-core high-efficiency hydrogen and oxygen generator Download PDF

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TWI738181B
TWI738181B TW109101556A TW109101556A TWI738181B TW I738181 B TWI738181 B TW I738181B TW 109101556 A TW109101556 A TW 109101556A TW 109101556 A TW109101556 A TW 109101556A TW I738181 B TWI738181 B TW I738181B
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electrolysis
hydrogen
oxygen
heat sink
electrolytic
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TW202129081A (en
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朱樹勳
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朱樹勳
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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

一種多核心高效型氫氧產生機,其電解裝置至少設有三組以上的多核心的電解迴路,使其在相同體積單元內,得以增加氣體總產生速率,提升電解的出氣量;再者,電解裝置的前後二側,設成凸型散熱片結構,不僅可以提升電解裝置的散熱效果,且外凸中空的散熱片設計,可使在相同體積單元內的電解液的容量增加,增加氫氧氣產生量,並可提升電解的介質比較穩定,進而增進氫氧氣生產品質之功效;又在槽體內設有一溫度感測器,當溫度過高時令主機板關閉休息;以及在電解槽上也設有一溫度感測器,隨時將溫度訊號傳送至一電流控制單元,並依設定溫度來調整該電源供應器供給至該電解裝置之直流電是升壓或降壓,俾能達到最高的電解效能。A multi-core high-efficiency oxyhydrogen generator. The electrolysis device is equipped with at least three sets of multi-core electrolysis circuits, which can increase the total gas generation rate and increase the gas output of electrolysis in the same volume unit; further, electrolysis The front and back sides of the device are equipped with a convex heat sink structure, which can not only improve the heat dissipation effect of the electrolysis device, but the convex hollow heat sink design can increase the capacity of the electrolyte in the same volume unit and increase the production of hydrogen and oxygen. It can increase the stability of the electrolysis medium, thereby improving the quality of hydrogen and oxygen production. There is also a temperature sensor in the tank to shut down the main board when the temperature is too high. There is also an electrolysis tank. The temperature sensor transmits the temperature signal to a current control unit at any time, and adjusts whether the DC power supplied by the power supply to the electrolysis device is boosted or reduced according to the set temperature, so as to achieve the highest electrolysis performance.

Description

多核心高效型氫氧產生機Multi-core high-efficiency hydrogen and oxygen generator

本發明有關一種氫氧產生機,尤指一種多核心的電解迴路,可達高效能的氫氧產出之裝置。The present invention relates to a hydrogen and oxygen generator, in particular to a multi-core electrolysis circuit capable of producing high-efficiency hydrogen and oxygen.

按,自然界中的水係由兩個氫原子與一個氧原子所組成,其中,氫原子具有三個同位素,即原子量為1的氫(H)、原子量為2的氘(又稱為重氫)與原子量為3的氚(又稱為超重氫),自然界的水體中若由氘代替氫結合的水即是氘水,飲用後其水中的氘進入人體將很難代謝出去,且在體內會積存進而產生基因突變;此外,氘的存在也可能造成腫瘤細胞的分裂。因此,飲用氘水對遺傳與代謝會有不良的影響。據此,近期業者已發展出一套應用氫氣產生機結合飲用水來產生低氘水的設備,該低氘水不僅可以活化免疫細胞、對改善身體代謝以及延緩老化,都具有一定的預防作用。According to, the water system in nature is composed of two hydrogen atoms and one oxygen atom. Among them, the hydrogen atom has three isotopes, namely hydrogen (H) with atomic weight 1, deuterium with atomic weight 2 (also known as heavy hydrogen), and Tritium with an atomic weight of 3 (also known as superheavy hydrogen). If deuterium is substituted for hydrogen in natural water, it is deuterium water. After drinking, the deuterium in the water will be difficult to metabolize when entering the human body, and it will accumulate in the body. Gene mutations occur; in addition, the presence of deuterium may also cause tumor cells to divide. Therefore, drinking deuterium water will have adverse effects on genetics and metabolism. Accordingly, the industry has recently developed a set of equipment that uses a hydrogen generator combined with drinking water to produce deuterium-depleted water. The deuterium-depleted water can not only activate immune cells, but also has a certain preventive effect on improving body metabolism and delaying aging.

再按,以石油作為動能的機動車輛因排放廢氣,嚴重破壞地球的生態及大氣層;因此,相關業者希望為下一代保留一個良好的生存環境,於是研發出以氫氣產生機製造氫氣,以替代石油來改善空氣汙染的問題。Press again, motor vehicles that use petroleum as kinetic energy emit exhaust gas, which severely damages the earth’s ecology and atmosphere; therefore, related industries hope to preserve a good living environment for the next generation, so they developed a hydrogen generator to produce hydrogen to replace petroleum. To improve the problem of air pollution.

如前所述,氫氣產生機的問世,已對飲用水及機動車輛的技術領域造成革命性的影響;惟,現有氫氣產生機因設備昂貴且體積龐大,在應用上無法被大眾接受,以至於普及率偏低;因此,本創作人除了思及如何減小氫氣產生機的體積及大幅降低其製造成本,進一步乃積極尋求如何改善氫氣的品質。As mentioned above, the advent of hydrogen generators has had a revolutionary impact on the technical fields of drinking water and motor vehicles; however, the existing hydrogen generators cannot be accepted by the public due to their expensive equipment and bulky size. The penetration rate is low; therefore, in addition to thinking about how to reduce the volume of the hydrogen generator and greatly reducing its manufacturing cost, the creator of the invention also actively seeks to improve the quality of hydrogen.

是以,圖1所示係申請人之台灣公告第M536671號『氫氣產生機』新型專利,其揭露一種小體積、低成本之氫氣產生機之電解板組,以擴大氫氣產生機的應用率,進而對人類健康福祉與地球環境保護有所貢獻。進一步,如圖2所示,申請人以台灣公告第M546976號『具雙過濾之氫氣產生機』新型專利,其揭露一種氫氣產生機之過濾裝置,具有使水溶液及氫氣雙重過濾,以達清潔及提升氫氣品質之功效。經查,申請人上述二件專利,皆為一種小體積的氫氧產生機,用以解決現有氫氧產生機體積龐大及成本高之缺失,並有改善氫氧氣的品質之功效增進。上述二件專利其主要構造包括:一電解槽100,一鎖定在電解槽100上方之上蓋101,以及一電解板組102,係設在該電解槽100內,並位於水溶液(L)中,其係由複數片電解板103所構成,該電解板組102設有安裝於該電解槽100外表面之二組電接頭104,以及二條與該電接頭104連接之導線105,而各別電解板103則設有二組與該導線105連通之導電栓106;以及複數個分佈其板面之電解孔(圖未示);故當電流流入該電解板103後,則水溶液(L)將被電解板103中之電解孔電解而產生氫氣及氧氣。Therefore, Figure 1 shows the applicant’s Taiwan Announcement No. M536671 "Hydrogen Generator" new patent, which discloses a small-sized and low-cost electrolytic plate assembly of a hydrogen generator to expand the application rate of the hydrogen generator. In turn, it contributes to human health and well-being and the environmental protection of the earth. Furthermore, as shown in Figure 2, the applicant used Taiwan Announcement No. M546976 "Hydrogen Generator with Double Filtration" for a new patent, which discloses a filter device for a hydrogen generator that double-filters aqueous solution and hydrogen to achieve cleanliness and The effect of improving the quality of hydrogen. After investigation, the applicant's two patents mentioned above are both a small-sized oxyhydrogen generator, which is used to solve the large size and high cost of the existing oxyhydrogen generator, and has the effect of improving the quality of hydrogen and oxygen. The main structures of the above two patents include: an electrolytic cell 100, an upper cover 101 locked above the electrolytic cell 100, and an electrolytic plate assembly 102, which is set in the electrolytic cell 100 and is located in the aqueous solution (L). It is composed of a plurality of electrolytic plates 103. The electrolytic plate group 102 is provided with two sets of electrical connectors 104 installed on the outer surface of the electrolytic cell 100, and two wires 105 connected to the electrical connectors 104, and each electrolytic plate 103 There are two sets of conductive plugs 106 connected with the wire 105; and a plurality of electrolytic holes (not shown) distributed on the plate surface; therefore, when the current flows into the electrolytic plate 103, the aqueous solution (L) will be electrolyzed by the plate The electrolysis holes in 103 electrolyze to produce hydrogen and oxygen.

惟查,上述二件專利其電解槽100內皆只有一組電解板組102,也就是說他只有單一迴路;產生氣體的過程中,電源提供電極板電解所需的電力,所述的電解液是添加有電解質的水溶液,電解過程中進行2H2O→2H2+O2的反應而產生氫氣和氧氣,故在同體積之電解槽內,以該單一迴路電解板組102,若再增加多數個電解板103,其實並不會增加影響氣體總產生速率。若是在未改變電壓差的情況下,氫氣和氧氣所產生的體積比例為2:1。然一般用於保健的氫氧混合氣體,氫氣和氧氣的比例較適當為65:35。雖然控制電解板組102之正極和負極的電壓差,可以調整產生的氫氣和氧氣比例,讓使用者可視個人需求調整氫氧混合氣體中氫氣和氧氣的比例;但如前述,因單一迴路電解板組的氣體總產生速率並不會增加,以致影響到電解槽的出氣量。此外,上述專利的電解板組102是浸泡於電解槽100內,如此一來,電解板組102所產生的熱能易蓄積在電解槽100內,不易散發,如果溫度過高且無法散熱的話,也會影響到電解效率。However, in the above two patents, there is only one set of electrolysis plate group 102 in the electrolysis cell 100, which means that it has only a single circuit; in the process of generating gas, the power supply provides the electricity required for the electrolysis of the electrode plates. It is an aqueous solution with electrolyte added. During the electrolysis process, the reaction of 2H2O→2H2+O2 produces hydrogen and oxygen. Therefore, in the same volume of electrolyzer, the single loop electrolytic plate group 102, if more electrolytic plates 103 are added In fact, it will not increase the total gas production rate. If the voltage difference is not changed, the volume ratio of hydrogen and oxygen is 2:1. However, the hydrogen-oxygen gas mixture generally used for health care, the ratio of hydrogen to oxygen is 65:35. Although the voltage difference between the positive electrode and the negative electrode of the electrolytic plate group 102 can be adjusted, the ratio of hydrogen and oxygen produced can be adjusted, allowing users to adjust the ratio of hydrogen and oxygen in the hydrogen-oxygen mixed gas according to personal needs; The total gas generation rate of the group will not increase, which will affect the gas output of the electrolytic cell. In addition, the electrolytic plate assembly 102 of the above-mentioned patent is immersed in the electrolytic cell 100. As a result, the heat generated by the electrolytic plate assembly 102 is easily accumulated in the electrolytic cell 100 and is not easily dissipated. If the temperature is too high and the heat can not be dissipated, it will Will affect the electrolysis efficiency.

是以,如何在最小體積內,能增加氣體總產生速率,提升電解槽的出氣量,為本發明所欲解決的課題。Therefore, how to increase the total gas generation rate and increase the gas output of the electrolytic cell within the minimum volume is the subject to be solved by the present invention.

緣是,本發明之主要目的,係在提供一種多核心高效型氫氧產生機,其電解裝置並非置於電解水溶液中,而是獨立於槽體外,可增進電解裝置的散熱效果,且電解裝置至少設有三組以上的多核心的電解迴路,使其在相同體積單元內,得以增加氣體總產生速率,提升電解的出氣量。The reason is that the main purpose of the present invention is to provide a multi-core high-efficiency hydrogen and oxygen generator. The electrolysis device is not placed in the electrolytic aqueous solution, but is independent of the tank body, which can improve the heat dissipation effect of the electrolysis device, and the electrolysis device There are at least three sets of multi-core electrolysis circuits, which can increase the total gas generation rate and increase the gas output of electrolysis in the same volume unit.

本發明再一目的,是在提供一種多核心高效型氫氧產生機,電解裝置的前後二側,設成凸型散熱片結構,不僅可以提升電解裝置的散熱效果,且外凸中空的散熱片設計,可使在相同體積單元內的電解液的容量增加,增加氫氣產生量,並可提升電解的介質比較穩定,進而增進氫氧氣生產品質之功效。Another object of the present invention is to provide a multi-core high-efficiency oxyhydrogen generator. The front and back sides of the electrolysis device are provided with a convex heat sink structure, which can not only improve the heat dissipation effect of the electrolysis device, but also has convex hollow heat sinks. The design can increase the capacity of the electrolyte in the same volume unit, increase the amount of hydrogen produced, and improve the stability of the electrolysis medium, thereby improving the effect of the quality of hydrogen and oxygen production.

為達上述目的,本創作採取的技術手段,包括:一槽體,其內容置電解用的水溶液,該槽體至少設有一水溶液輸出口,及一氫氧氣輸入口;一蓋體,設在該槽體上,該蓋體上設有氫氧氣輸出口;一電解裝置,係獨立於該槽體之外,該電解裝置至少設有三組的一第一電解單元、一第二電解單元及一第三電解單元所組成,且各電解單元至少由5片以上的負極電解板、正極電解板,依序交錯間格排列所組成的單數電解板組合架構,再者,該第一電解單元及第三電解單元,各具有一正極電流端及一負極電流端,且該相鄰的二電解單元,係以該正極電流端與相對應之電解單元的負極電流端形成電性連接,形成一種多核心的電解迴路裝置;To achieve the above objectives, the technical means adopted in this creation include: a tank body containing an aqueous solution for electrolysis, the tank body is provided with at least one aqueous solution output port and a hydrogen and oxygen input port; a cover body is set in the On the tank body, the cover is provided with a hydrogen and oxygen output port; an electrolysis device is independent of the tank body, and the electrolysis device is provided with at least three groups of a first electrolysis unit, a second electrolysis unit and a first electrolysis unit. It is composed of three electrolysis units, and each electrolysis unit consists of at least 5 or more negative electrolysis plates and positive electrolysis plates, which are arranged in a singular electrolysis plate assembly structure in a staggered and interlaced order. Furthermore, the first electrolysis unit and the third electrolysis unit The electrolysis units each have a positive current terminal and a negative current terminal, and the two adjacent electrolysis units are electrically connected by the positive current terminal and the negative current terminal of the corresponding electrolysis unit to form a multi-core Electrolysis loop device;

其中:該電解裝置的複數片電解板,該每一片電解板周邊上設有多個通孔,且周邊內的板體上設有複數個電解孔;複數個絕緣防漏墊圈,係套設在該電解板二側的周邊上,用以使該電解裝置的四周圍形成密閉狀;一第一散熱片及一第二散熱片,其周邊係配合該電解板的型體及該第一通孔的位置所設製,並對應設有一第二通孔,用以貼靠在該電解裝置的前、後二面,進一步使該電解裝置的前、後二面也形成密閉狀,據以使該電解裝置內部成為一連通狀的電解槽,且該第一散熱片及第二散熱片,其周邊內側係呈一外凸中空型體,並設有多數的散熱鰭片,藉此,當一電源供應器將直流電分別輸入該正、負極電流端,使相鄰每一片電解板之電解孔分別形成正極或負極,進而使通過該電解孔之水溶液被電解而產生氫氣及氧氣;一水溶液導入口,係設在該第一散熱片或第二散熱片上,用以將該槽體內的水溶液,經由該水溶液輸出口以一第一導管送入該水溶液導入口;以及一氫氧氣導出口,係設在該第一散熱片或第二散熱片上,用以將該電解裝置所產生的氫氣及氧氣,以一第二導管送至該槽體的氫氧氣輸入口;一第一溫度感測器,係設在該槽體內,用以偵測該槽體內之水溶液的溫度,當溫度過高時,將訊號傳送至一控制器,令該氫氧產生機的主機板關閉休息;以及一第二溫度感測器,係設在該第一散熱片或第二散熱片其中一位置,用以偵測該電解槽內之電解液的溫度,並將溫度訊號傳送至一電流控制單元,該電流控制單元接收到該第二溫度感測器的溫度訊號後,依設定溫度來調整該電源供應器供給至該電解裝置之直流電是升壓或降壓。Among them: a plurality of electrolytic plates of the electrolytic device, each electrolytic plate is provided with a plurality of through holes on the periphery, and a plurality of electrolytic holes are provided on the plate body in the periphery; a plurality of insulating and leak-proof washers are sleeved in The peripheries on two sides of the electrolytic plate are used to make the surroundings of the electrolytic device form a closed shape; a first heat sink and a second heat sink, the periphery of which is matched with the shape of the electrolytic plate and the first through hole The position of the electrolysis device is set, and a second through hole is correspondingly provided to lie against the front and back sides of the electrolysis device, and further make the front and back sides of the electrolysis device form a closed shape, so that the The inside of the electrolysis device becomes a connected electrolysis tank, and the inner periphery of the first heat sink and the second heat sink is a convex hollow body with a large number of heat sink fins, thereby acting as a power source The supplier inputs direct current to the positive and negative current terminals respectively, so that the electrolytic holes of each adjacent electrolytic plate form a positive electrode or a negative electrode respectively, and then the aqueous solution passing through the electrolytic hole is electrolyzed to produce hydrogen and oxygen; an aqueous solution inlet, Is arranged on the first heat sink or the second heat sink, and is used to send the aqueous solution in the tank to the aqueous solution inlet through a first conduit through the aqueous solution outlet; and a hydrogen and oxygen outlet, which is arranged at The first heat sink or the second heat sink is used to send the hydrogen and oxygen generated by the electrolysis device to the hydrogen and oxygen input port of the tank through a second conduit; a first temperature sensor is provided In the tank, it is used to detect the temperature of the aqueous solution in the tank, and when the temperature is too high, a signal is sent to a controller to make the main board of the hydrogen and oxygen generator shut down and rest; and a second temperature sensor The device is set at one of the first heat sink or the second heat sink to detect the temperature of the electrolyte in the electrolytic cell, and transmit the temperature signal to a current control unit, which is received by the current control unit After the temperature signal of the second temperature sensor, the DC power supplied by the power supply to the electrolysis device is adjusted according to the set temperature to increase or decrease the voltage.

依據前揭特徵,該第二溫度感測器偵測該電解槽內之電解液溫度,當電解液溫度未超過45度之前,該電流控制單元令該電源供應器升高電壓至9V,當電解液溫度超過45度以上時,該電流控制單元調令該電源供應器降低電壓至7.5-7.8V。According to the aforementioned features, the second temperature sensor detects the temperature of the electrolyte in the electrolytic cell. When the temperature of the electrolyte does not exceed 45 degrees, the current control unit causes the power supply to increase the voltage to 9V. When the liquid temperature exceeds 45 degrees, the current control unit adjusts the power supply to reduce the voltage to 7.5-7.8V.

依據前揭特徵,該水溶液輸出口係設在該槽體其中一側面的下方,該氫氧氣輸入口係設在該槽體其中一側面的上方,以及更包括一視窗係設在該槽體其中一側面,用以觀察該槽體內部的水溶液高度。According to the aforementioned features, the aqueous solution outlet is provided below one of the side surfaces of the tank body, the hydrogen and oxygen input port is provided above one of the side surfaces of the tank body, and further includes a window provided in the tank body One side is used to observe the height of the aqueous solution inside the tank.

依據前揭特徵,該電解槽更包括一釋液口。According to the features disclosed above, the electrolytic cell further includes a liquid discharge port.

依據前揭特徵,該蓋體於該氫氧氣輸出口之前設有一位於該槽體內的過濾筒,另該蓋體上更包括設有一水溶液注入口,用以補充該槽體內的水溶液。According to the aforementioned features, the cover is provided with a filter cartridge in the tank before the hydrogen and oxygen output port, and the cover further includes an aqueous solution injection port for replenishing the aqueous solution in the tank.

依據前揭特徵,該第一散熱片及一第二散熱片的上下端設有向外翻摺的上凸耳及下凸耳,該上凸耳用以結合在該槽體的底部,該下凸耳用以結合在一固定板上。According to the features disclosed above, the upper and lower ends of the first heat sink and the second heat sink are provided with upper and lower lugs that are turned outwards. The lugs are used to combine with a fixing plate.

藉助上揭技術構成,本發明所揭露的電解裝置並非置於電解水溶液中,而是獨立於該槽體外,可增進該電解裝置的散熱效果,且該電解裝置至少設有三組以上的多核心的電解迴路,使其在相同體積單元內,得以增加氣體總產生速率,提升電解的出氣量;再者,該電解裝置的前後二側,所設成凸型散熱片結構,不僅可以提升該電解裝置的散熱效果,且外凸中空的散熱片設計,可使在相同體積單元內的電解液的容量增加,具有大幅提升其電解效率,增加氫氧氣產生量,並可提升電解的介質比較穩定,進而增進氫氧氣生產品質之功效。With the aid of the above-disclosed technical structure, the electrolysis device disclosed in the present invention is not placed in the electrolytic aqueous solution, but is independent of the tank body, which can improve the heat dissipation effect of the electrolysis device, and the electrolysis device is provided with at least three sets of multi-core The electrolysis circuit makes it within the same volume unit to increase the total gas generation rate and increase the gas output of electrolysis; Moreover, the front and back sides of the electrolysis device are provided with a convex radiating fin structure, which can not only improve the electrolysis device The heat dissipation effect, and the convex hollow heat sink design can increase the capacity of the electrolyte in the same volume unit, greatly improve its electrolysis efficiency, increase the production of hydrogen and oxygen, and increase the stability of the electrolysis medium, and then The effect of improving the quality of hydrogen and oxygen production.

為充分瞭解本發明,茲藉由下述具體之實施例,並配合所附之圖式,對本發明做一詳細說明。本領域技術人員可由本說明書所公開的內容瞭解本發明的目的、特徵及功效。須注意的是,本發明可通過其他不同的具體實施例加以實施或應用,本說明書中的各項細節亦可基於不同觀點,在不悖離本發明的精神下進行各種變更。另外,本發明所附之圖式僅為簡單示意說明,並非依實際尺寸的描繪。以下的實施方式將進一步詳細說明本發明的相關技術內容,但所公開的內容並非用以限制本發明的技術範圍。說明如後:In order to fully understand the present invention, a detailed description of the present invention is given with the following specific embodiments in conjunction with the accompanying drawings. Those skilled in the art can understand the purpose, features and effects of the present invention from the contents disclosed in this specification. It should be noted that the present invention can be implemented or applied through other different specific embodiments, and various details in this specification can also be based on different viewpoints, and various changes can be made without departing from the spirit of the present invention. In addition, the drawings attached to the present invention are merely schematic illustrations, not depictions based on actual dimensions. The following embodiments will further describe the related technical content of the present invention in detail, but the disclosed content is not intended to limit the technical scope of the present invention. The description is as follows:

首先,如圖3至圖13所示,本發明多核心高效型氫氧產生機,其較佳實施,其中,該氫氧產生機90係以電解方式產生氫氧氣,其包含有:一槽體10,其內容置電解用的水溶液,該槽體10至少設有一水溶液輸出口11,及一氫氧氣輸入口12;本實施例中,該水溶液輸出口11係設在該槽體10其中一側面的下方,該氫氧氣輸入口12係設在該槽體10其中一側面的上方。此外,一視窗13係設在該槽體10其中一側面,用以觀察該槽體10內部的水溶液高度。First, as shown in FIGS. 3 to 13, the multi-core high-efficiency hydrogen and oxygen generator of the present invention is preferably implemented. The hydrogen and oxygen generator 90 generates hydrogen and oxygen in an electrolytic manner, and includes: a tank body 10. It contains an aqueous solution for electrolysis. The tank body 10 is provided with at least an aqueous solution outlet 11 and a hydrogen and oxygen input port 12; in this embodiment, the aqueous solution outlet 11 is provided on one of the sides of the tank body 10. Below, the hydrogen and oxygen input port 12 is provided above one of the side surfaces of the tank body 10. In addition, a window 13 is provided on one side of the tank body 10 for observing the height of the aqueous solution inside the tank body 10.

一蓋體20,設在該槽體10上,該蓋體20上設有一氫氧氣輸出口21;本實施例中,該蓋體20於該氫氧氣輸出口21之前設有一位於該槽體10內的過濾筒22,另該蓋體20上更包括設有一水溶液注入口23,用以補充該槽體10內的水溶液;以及一氣體過濾裝置24,設在該蓋體20上,用以將由該氫氧氣輸出口21送出的氣體加以過濾,前述該過濾筒22為第一道過濾,而此氣體過濾裝置24,則為第二道過濾,使輸出的氣體更為乾淨。A cover body 20 is arranged on the tank body 10, and the cover body 20 is provided with a hydrogen and oxygen output port 21; in this embodiment, the cover body 20 is provided with a tank body 10 before the hydrogen and oxygen output port 21 The inner filter cartridge 22, and the cover body 20 further includes an aqueous solution injection port 23 for supplementing the aqueous solution in the tank body 10; and a gas filter device 24 arranged on the cover body 20 for The gas sent from the hydrogen and oxygen output port 21 is filtered. The filter cartridge 22 is the first filter, and the gas filter device 24 is the second filter to make the output gas cleaner.

圖11係本發明之電解裝置及散熱片的剖視圖,一電解裝置30,係獨立於該槽體10之外,該電解裝置30至少設有三組的一第一電解單元30A、一第二電解單元30B及一第三電解單元30C所所構成的①、②、③三核心電解迴路裝置,且各電解單元至少由7片以上的負極電解板301(-)、正極電解板302(+)、負極電解板303(-)、正極電解板304(+)、負極電解板305(-)、正極電解板306(+)、負極電解板307(-),依序交錯間格排列所組成的單數電解板組合架構;圖12係本發明之電解裝置30的組合架構分解示意圖,用以顯示各電解單元的電解迴路,該第一電解單元30A及第三電解單元30C,各具有一正極電流端及一負極電流端,且該相鄰的二電解單元30B,係以該正極電流端與相對應之電解單元的負極電流端形成電性連接,形成一種①、②、③三核心的串聯電解迴路裝置。本實施例中,該三核心電解迴路裝置,係連接外部一個獨立的直流電壓83所構成。置於該直流電壓83的調整及控制,係如圖7所示,容後再詳細說明。11 is a cross-sectional view of the electrolysis device and heat sink of the present invention. An electrolysis device 30 is independent of the tank body 10. The electrolysis device 30 is provided with at least three groups of a first electrolysis unit 30A and a second electrolysis unit 30B and a third electrolysis unit 30C constitute a three-core electrolysis circuit device ①, ②, ③, and each electrolysis unit consists of at least 7 negative electrolytic plates 301 (-), positive electrolytic plates 302 (+), and negative electrodes Electrolysis plate 303(-), positive electrode plate 304(+), negative electrode plate 305(-), positive electrode plate 306(+), negative electrode plate 307(-), singular electrolysis consisting of a staggered arrangement in sequence 12 is an exploded schematic diagram of the combined structure of the electrolysis device 30 of the present invention, used to show the electrolysis circuit of each electrolysis unit, the first electrolysis unit 30A and the third electrolysis unit 30C, each has a positive current terminal and a The negative current terminal, and the adjacent two electrolysis unit 30B, are electrically connected with the positive current terminal and the negative current terminal of the corresponding electrolysis unit to form a three-core series electrolysis loop device ①, ②, and ③. In this embodiment, the three-core electrolytic circuit device is formed by connecting an independent DC voltage 83 from the outside. The adjustment and control of the DC voltage 83 are shown in Fig. 7 and will be described in detail later.

另,上揭電解裝置30之構成,已見諸於發明人已經公開之台灣公告第M536671號『氫氣產生機』,及台灣公告第M546976號『具雙過濾之氫氣產生機』專利之結構中,因此其細部構造及電解原理,係屬先前技術(PRIOR ART),且非本發明之專利標的,容不贅述。In addition, the structure of the electrolysis device 30 disclosed above has been found in the structure of the Taiwan Announcement No. M536671 "Hydrogen Generator" and Taiwan Announcement No. M546976 "Hydrogen Generator with Double Filtration". Therefore, the detailed structure and electrolysis principle belong to the prior art (PRIOR ART), and are not the subject of the patent of the present invention, so they will not be repeated.

本發明之主要特徵在於:如圖9-圖11所示,該電解裝置30的複數片電解板31,該每一片電解板31周邊上設有多個通孔311,且周邊內的板體上設有複數個電解孔312;複數個絕緣防漏墊圈32,係套設在該電解板31二側的周邊上,用以使該電解裝置30的四周圍形成密閉狀,以防止水溶液自縫隙處洩漏,並使相鄰的電解板31絕緣而不導電。本實施例中,該每片電解板31的外側設有一外凸的正電流或負電流的連接片313,為了方便製造與組合,該連接片313是設在該電解板31外側靠上方或下方的位置,如此一來,每片電解板31都是一樣的規格,組合時只要依需求朝左上、左下、右上或右下的位置,再藉由一鎖栓34(如圖11所示)穿伸該通孔311,就可以組成該電解裝置30。The main feature of the present invention is: as shown in Figures 9-11, the electrolysis device 30 has a plurality of electrolytic plates 31, each electrolytic plate 31 is provided with a plurality of through holes 311 on the periphery, and the plate body in the periphery is A plurality of electrolytic holes 312 are provided; a plurality of insulating and leak-proof gaskets 32 are sleeved on the periphery of the two sides of the electrolytic plate 31 to make the surroundings of the electrolytic device 30 form a closed shape to prevent the aqueous solution from passing through the gap Leakage, and insulates adjacent electrolytic plates 31 and does not conduct electricity. In this embodiment, the outer side of each electrolytic plate 31 is provided with a protruding positive or negative current connecting piece 313. In order to facilitate manufacturing and assembly, the connecting piece 313 is arranged above or below the outer side of the electrolytic plate 31. In this way, each electrolytic plate 31 has the same specifications. When combining, as long as it is assembled to the upper left, lower left, upper right or lower right position according to the needs, and then pass through a lock bolt 34 (as shown in Figure 11) By extending the through hole 311, the electrolysis device 30 can be formed.

一第一散熱片40A及一第二散熱片40B,其周邊41係配合該電解板31的型體及該第一通孔311的位置所設製,並對應設有一第二通孔411,用以貼靠在該電解裝置30的前、後二面,進一步使該電解裝置30的前、後二面也形成密閉狀,據以使該電解裝置30內部成為一連通狀的電解槽33,且該第一散熱片40A及第二散熱片40B,其周邊41內側係呈一外凸中空型體42,並設有多數的散熱鰭片43,藉此,當一電源供應器91將直流電分別輸入該正、負極電流端,使相鄰每一片電解板31之電解孔312分別形成正極或負極,進而使通過該電解孔312之水溶液被電解而產生氫氣及氧氣;再者,該第一散熱片40A及一第二散熱片40B的上下端設有向外翻摺的上凸耳44及下凸耳45,該上凸耳44用以結合在該槽體10的底部,該下凸耳45用以結合在一固定板46上。本實施例中,該電解槽33更包括一釋液口331,用以將電解槽33內之電解液(L)排出更新。A first heat sink 40A and a second heat sink 40B, the periphery 41 of which is made to match the shape of the electrolytic plate 31 and the position of the first through hole 311, and is correspondingly provided with a second through hole 411 for use The front and rear sides of the electrolysis device 30 are attached to the front and rear sides of the electrolysis device 30, and the front and rear sides of the electrolysis device 30 are further formed into a sealed shape, so that the inside of the electrolysis device 30 becomes a communicating electrolytic tank 33, and The first heat sink 40A and the second heat sink 40B have a convex hollow body 42 on the inner side of the periphery 41, and are provided with a plurality of heat sink fins 43, whereby when a power supply 91 inputs DC power respectively The positive and negative current terminals make the electrolytic holes 312 of each adjacent electrolytic plate 31 form a positive electrode or a negative electrode, respectively, so that the aqueous solution passing through the electrolytic hole 312 is electrolyzed to generate hydrogen and oxygen; further, the first heat sink The upper and lower ends of 40A and a second heat sink 40B are provided with an upper lug 44 and a lower lug 45 that are folded outward. To be combined on a fixed plate 46. In this embodiment, the electrolytic tank 33 further includes a liquid discharge port 331 for discharging and renewing the electrolyte (L) in the electrolytic tank 33.

一水溶液導入口50,係設在該第一散熱片40A或第二散熱片40B上,用以將該槽體10內的水溶液,經由該水溶液輸出口11以一第一導管51送入該水溶液導入口50。An aqueous solution inlet 50 is provided on the first radiating fin 40A or the second radiating fin 40B, and is used to feed the aqueous solution in the tank body 10 through the aqueous solution outlet 11 through a first conduit 51 Inlet 50.

一氫氧氣導出口60,係設在該第一散熱片40A或第二散熱片40B上,用以將該電解裝置30所產生的氫氣及氧氣,以一第二導管61送至該槽體10的氫氧氣輸入口12。A hydrogen and oxygen outlet 60 is provided on the first heat sink 40A or the second heat sink 40B, and is used to send the hydrogen and oxygen generated by the electrolysis device 30 to the tank body 10 through a second conduit 61 The hydrogen and oxygen input port 12.

一第一溫度感測器71,係設在該槽體10內,用以偵測該槽體10內之水溶液的溫度,當溫度過高時,將訊號傳送至一控制器72,令該氫氧產生機90的主機板70關閉休息。A first temperature sensor 71 is set in the tank 10 to detect the temperature of the aqueous solution in the tank 10, and when the temperature is too high, it sends a signal to a controller 72 to make the hydrogen The main board 70 of the oxygen generator 90 is closed and rested.

一第二溫度感測器81,係設在該第一散熱片40A或第二散熱片40B其中一位置,用以偵測該電解槽33內之電解液(L)的溫度,並將溫度訊號傳送至一電流控制單元82,該電流控制單元82接收到該第二溫度感測器81的溫度訊號後,依設定溫度來調整該電源供應器80供給至該電解裝置33之直流電是升壓或降壓。本實施例中,該第二溫度感測器81係設在該第一散熱片40A上,偵測該電解槽33內之電解液(L)溫度,當電解液(L)溫度未超過45度之前,該電流控制單元82令該電源供應器80升高直流電壓至9V,當電解液溫度超過45度以上時,該電流控制單元82調令該電源供應器80降低該直流電壓83至7.5-7.8V。A second temperature sensor 81 is located at one of the first heat sink 40A or the second heat sink 40B to detect the temperature of the electrolyte (L) in the electrolytic cell 33 and signal the temperature It is sent to a current control unit 82. After receiving the temperature signal from the second temperature sensor 81, the current control unit 82 adjusts whether the DC power supplied by the power supply 80 to the electrolysis device 33 is boosted or boosted according to the set temperature. Buck. In this embodiment, the second temperature sensor 81 is arranged on the first heat sink 40A to detect the temperature of the electrolyte (L) in the electrolytic tank 33, when the temperature of the electrolyte (L) does not exceed 45 degrees Previously, the current control unit 82 made the power supply 80 increase the DC voltage to 9V. When the electrolyte temperature exceeds 45 degrees, the current control unit 82 adjusts the power supply 80 to reduce the DC voltage 83 to 7.5- 7.8V.

基於上揭技術手段,本發明屏除先前技術使用多片式電解板所構成的單一核心電解迴路的架構,採用在單一電解槽11內形成一種多核心電解單元的電解迴路,使其在相同體積單元內,得以增加氣體總產生速率,提升電解槽的出氣量;其效果就猶如電池的電壓一樣:3v十3v十3v=9V。Based on the technical means mentioned above, the present invention screens the structure of a single-core electrolytic circuit formed by using multiple electrolytic plates in the prior art, and adopts an electrolytic circuit that forms a multi-core electrolytic cell in a single electrolytic cell 11 so that it is in the same volume. Inside, the total gas production rate can be increased, and the gas output of the electrolytic cell can be increased; the effect is just like the voltage of the battery: 3v + 3v + 3v = 9V.

電解過程中進行2H2O→2H2+O2的反應,而於負極電解板產生氫氣,以及於正極電解板產生氧氣,由於在電解反應的進行中,所產生的氫氣、氧氣比例會受到負極電解板和正極的電解板之間電壓差所影響,若是在未改變電壓差的情況下,氫氣和氧氣所產生的體積比例為2:1。惟查,一般用於保健的氫氧混合氣體,氫氣和氧氣的比例較適當為65:35左右。而本發明其各電解單元之負極電解板較正極電解板多一片,因此可改變所產生的氫氣和氧氣比例為2:1的故有比例,亦即得以增加氫氣產出比例之功效。During the electrolysis process, the reaction of 2H2O→2H2+O2 is carried out, and hydrogen is generated in the negative electrolytic plate and oxygen is generated in the positive electrolytic plate. As the electrolysis reaction progresses, the ratio of hydrogen and oxygen produced will be affected by the negative electrolytic plate and the positive electrode. Affected by the voltage difference between the electrolytic plates, if the voltage difference is not changed, the volume ratio of hydrogen and oxygen is 2:1. However, the ratio of hydrogen to oxygen is about 65:35 for the hydrogen-oxygen mixed gas generally used for health care. In the present invention, the negative electrolytic plate of each electrolysis unit is more than that of the positive electrolytic plate, so the ratio of hydrogen to oxygen generated can be changed to 2:1, that is, the effect of increasing the ratio of hydrogen output can be increased.

如圖4所示,本實施例中,電解裝置30以電解水溶液L產生氫氣及氧氣,而水溶液、氫氣及氧氣先經過該過濾筒22,做第一次過濾殺菌,而上升之氣體由該氫氧氣輸出口21經一銜接管25送至該氣體過濾裝置24,更使液體及氣體雙重過濾,以獲致更優質的之氫氣及氧氣。As shown in Fig. 4, in this embodiment, the electrolysis device 30 generates hydrogen and oxygen by electrolyzing the aqueous solution L, and the aqueous solution, hydrogen and oxygen pass through the filter cartridge 22 for the first filtering and sterilization, and the rising gas is removed by the hydrogen The oxygen output port 21 is sent to the gas filtering device 24 through a connecting pipe 25, which further allows the liquid and gas to be double-filtered to obtain higher quality hydrogen and oxygen.

如圖13所示,本發明中更包括一外殼體91,係用以容置該氫氧產生機90,且該外殼體91上設有一控制面板92,用以控制或調整該氫氧產生機90的運轉;又該外殼體91上另設有一氣體輸出管件93,用以將該氫氧產生機90所產生的氫氣和氧氣送至使用者端。As shown in FIG. 13, the present invention further includes an outer casing 91 for accommodating the hydrogen and oxygen generator 90, and a control panel 92 is provided on the outer casing 91 to control or adjust the hydrogen and oxygen generator. 90 operation; and the outer shell 91 is additionally provided with a gas output pipe 93, used to send the hydrogen and oxygen generated by the hydrogen and oxygen generator 90 to the end of the user.

藉助上揭技術構成,本發明所揭露的電解裝置30並非置於電解水溶液中,而是獨立於該槽體10外,可增進該電解裝置30的散熱效果,且該電解裝置30至少設有三組以上的多核心的電解迴路,使其在相同體積單元內,得以增加氣體總產生速率,提升電解的出氣量;再者,該電解裝置30的前後二側,所設成凸型散熱片40A、40B結構,不僅可以提升該電解裝置30的散熱效果,且外凸中空的散熱片設計,可使在相同體積單元內的電解液的容量增加,具有大幅提升其電解效率,增加氫氧氣產生量,並可提升電解的介質比較穩定,進而增進氫氧氣品質之功效。With the aid of the above-disclosed technical structure, the electrolysis device 30 disclosed in the present invention is not placed in the electrolytic aqueous solution, but is independent of the tank body 10, which can improve the heat dissipation effect of the electrolysis device 30, and the electrolysis device 30 is provided with at least three groups The above multi-core electrolysis circuit makes it possible to increase the total gas generation rate and increase the gas output of electrolysis within the same volume unit; further, the front and rear sides of the electrolysis device 30 are provided with convex heat sinks 40A, The 40B structure can not only improve the heat dissipation effect of the electrolysis device 30, but the convex hollow heat sink design can increase the capacity of the electrolyte in the same volume unit, which can greatly improve its electrolysis efficiency and increase the production of hydrogen and oxygen. It can also improve the stability of the electrolysis medium, thereby enhancing the effect of hydrogen and oxygen quality.

綜上所述,本發明所揭示之構造,為昔所無,且確能達到功效之增進,並具可供產業利用性,完全符合發明專利要件,祈請 鈞局核賜專利,以勵創新,無任德感。To sum up, the structure disclosed in the present invention is unprecedented, and it can indeed achieve the enhancement of efficacy, and is available for industrial use, and fully meets the requirements of an invention patent. I hope that the Jun Bureau will grant the patent to encourage innovation. , No sense of morality.

惟,上述所揭露之圖式、說明,僅為本發明之較佳實施例,大凡熟悉此項技藝人士,依本案精神範疇所作之修飾或等效變化,仍應包括在本案申請專利範圍內。However, the drawings and descriptions disclosed above are only preferred embodiments of the present invention. Anyone who is familiar with the art and makes modifications or equivalent changes based on the spirit of the case should still be included in the scope of the patent application in this case.

10 槽體 11 水溶液輸出口 12 氫氧氣輸入口 13 視窗 20 蓋體 21 氫氧氣輸出口 22 過濾筒 23 水溶液注入口 24 氣體過濾裝置 25 銜接管 30 電解裝置 30A 第一電解單元 30B 第二電解單元 30C 第三電解單元 31 電解板 311 第一通孔 312 電解孔 313 連接片 32 絕緣防漏墊圈 33 電解槽 331 釋液口 34 鎖栓 40A 第一散熱片 40B 第二散熱片 41 周邊 411 第二通孔 42 外凸中空型體 43 散熱鰭片 44 上凸耳 45 下凸耳 50 水溶液導入口 51 第一導管 60 氫氧氣導出口 61 第二導管 70 主機板 71 第一溫度感測器 72 控制器 80 電源供應器 81 第二溫度感測器 82 電流控制單元 83 直流電壓 90 氫氧產生機 91 外殼體 92 控制面板 93 氣體輸出管件 10 tank 11 Aqueous solution outlet 12 Hydrogen and oxygen input port 13 windows 20 Lid 21 Hydrogen and oxygen outlet 22 filter cartridge 23 Aqueous solution injection port 24 Gas filter device 25 Connection Management 30 Electrolysis device 30A first electrolysis unit 30B second electrolysis unit 30C The third electrolysis unit 31 Electrolysis plate 311 First through hole 312 Electrolysis hole 313 connecting piece 32 Insulation leak-proof gasket 33 Electrolyzer 331 Discharge Port 34 Lock bolt 40A first heat sink 40B second heat sink 41 Peripheral 411 Second through hole 42 convex hollow body 43 cooling fins 44 Upper lug 45 Lower lug 50 Aqueous solution inlet 51 First catheter 60 Hydrogen and oxygen outlet 61 Second conduit 70 Motherboard 71 First temperature sensor 72 Controller 80 power supply 81 Second temperature sensor 82 Current control unit 83 DC voltage 90 Hydrogen and Oxygen Generator 91 Outer shell 92 Control Panel 93 Gas output pipe fittings

圖1係習用台灣公告第M536671號『氫氣產生機』專利之結構示意圖。 圖2係習用台灣公告第M546976號『具雙過濾之氫氣產生機』專利之結構示意圖。 圖3係本發明較佳實施之組合立體圖。 圖4係本發明較佳實施之部分剖視立體圖。 圖5係本發明較佳實施之前視圖。 圖6係本發明較佳實施之後視圖。 圖7係本發明較佳實施之側視圖。 圖8係本發明之電解裝置及散熱片組合立體圖。 圖9係本發明之電解裝置及散熱片分解立體圖。 圖10係本發明之電解裝置及散熱片的部分剖視立體圖。 圖11係本發明之電解裝置及散熱片的剖視圖。 圖12係本發明之電解裝置的組合架構示意圖。 圖13係本發明之一使用狀態外觀立體圖。 Figure 1 is a schematic diagram of the structure of the conventional Taiwan Announcement No. M536671 "Hydrogen Generator" patent. Figure 2 is a schematic diagram of the conventional Taiwan Announcement No. M546976 "Hydrogen Generator with Double Filtration" patent. Figure 3 is a combined perspective view of a preferred implementation of the present invention. Figure 4 is a partially cut-away perspective view of a preferred implementation of the present invention. Figure 5 is a front view of a preferred implementation of the present invention. Figure 6 is a back view of the preferred implementation of the present invention. Figure 7 is a side view of a preferred embodiment of the present invention. Fig. 8 is a perspective view of the electrolysis device and heat sink assembly of the present invention. Fig. 9 is an exploded perspective view of the electrolysis device and heat sink of the present invention. Fig. 10 is a partial cut-away perspective view of the electrolysis device and the heat sink of the present invention. Figure 11 is a cross-sectional view of the electrolysis device and the heat sink of the present invention. Fig. 12 is a schematic diagram of the combined structure of the electrolysis device of the present invention. Fig. 13 is a perspective view of the appearance of one aspect of the present invention in use.

10 槽體 11 水溶液輸出口 12 氫氧氣輸入口 13 視窗 20 蓋體 21 氫氧氣輸出口 23 水溶液注入口 24 氣體過濾裝置 30 電解裝置 331 釋液口 40A 第一散熱片 40B 第二散熱片 50 水溶液導入口 51 第一導管 60 氫氧氣導出口 70 主機板 71 第一溫度感測器 72 控制器 80 電源供應器 81 第二溫度感測器 82 電流控制單元 83 直流電壓 90 氫氧產生機 10 tank 11 Aqueous solution outlet 12 Hydrogen and oxygen input port 13 windows 20 Lid 21 Hydrogen and oxygen outlet 23 Aqueous solution injection port 24 Gas filter device 30 Electrolysis device 331 Discharge Port 40A first heat sink 40B second heat sink 50 Aqueous solution inlet 51 First catheter 60 Hydrogen and oxygen outlet 70 Motherboard 71 First temperature sensor 72 Controller 80 power supply 81 Second temperature sensor 82 Current control unit 83 DC voltage 90 Hydrogen and Oxygen Generator

Claims (6)

一種多核心高效型氫氧產生機,其中,該氫氧產生機係以電解方式產生氫氧氣,其包含有: 一槽體,其內容置電解用的水溶液,該槽體至少設有一水溶液輸出口,及一氫氧氣輸入口; 一蓋體,設在該槽體上,該蓋體上設有一氫氧氣輸出口; 一電解裝置,係獨立於該槽體之外,該電解裝置至少設有三組的一第一電解單元、一第二電解單元及一第三電解單元所組成,且各電解單元至少由5片以上的負極電解板、正極電解板,依序交錯間格排列所組成的單數電解板組合架構,再者,該第一電解單元及第三電解單元,各具有一正極電流端及一負極電流端,且該相鄰的二電解單元,係以該正極電流端與相對應之電解單元的負極電流端形成電性連接,形成一種多核心的電解迴路裝置;其中: 該電解裝置的複數片電解板,該每一片電解板周邊上設有多個第一通孔,且周邊內的板體上設有複數個電解孔; 複數個絕緣防漏墊圈,係套設在該電解板二側的周邊上,用以使該電解裝置的四周圍形成密閉狀; 一第一散熱片及一第二散熱片,其周邊係配合該電解板的型體及該第一通孔的位置所設製,並對應設有一第二通孔,用以貼靠在該電解裝置的前、後二面,進一步使該電解裝置的前、後二面也形成密閉狀,據以使該電解裝置內部成為一連通狀的電解槽,且該第一散熱片及第二散熱片,其周邊內側係呈一外凸中空型體,並設有多數的散熱鰭片,藉此,當一電源供應器將直流電分別輸入該正、負極電流端,使相鄰每一片電解板之電解孔分別形成正極或負極,進而使通過該電解孔之水溶液被電解而產生氫氣及氧氣; 一水溶液導入口,係設在該第一散熱片或第二散熱片上,用以將該槽體內的水溶液,經由該水溶液輸出口以一第一導管送入該水溶液導入口;以及 一氫氧氣導出口,係設在該第一散熱片或第二散熱片上,用以將該電解裝置所產生的氫氣及氧氣,以一第二導管送至該槽體的氫氧氣輸入口; 一第一溫度感測器,係設在該槽體內,用以偵測該槽體內之水溶液的溫度,當溫度過高時,將訊號傳送至一控制器,令該氫氧產生機的主機板關閉休息;以及 一第二溫度感測器,係設在該第一散熱片或第二散熱片其中一位置,用以偵測該電解槽內之電解液的溫度,並將溫度訊號傳送至一電流控制單元,該電流控制單元接收到該第二溫度感測器的溫度訊號後,依設定溫度來調整該電源供應器供給至該電解裝置之直流電是升壓或降壓。 A multi-core high-efficiency oxyhydrogen generator, wherein the oxyhydrogen generator generates hydrogen and oxygen by electrolysis, which includes: A tank body containing an aqueous solution for electrolysis, and the tank body is provided with at least one aqueous solution output port and a hydrogen and oxygen input port; A cover body is arranged on the tank body, and the cover body is provided with a hydrogen and oxygen output port; An electrolysis device is independent of the tank body. The electrolysis device is composed of at least three groups of a first electrolysis unit, a second electrolysis unit and a third electrolysis unit, and each electrolysis unit is composed of at least 5 pieces The negative electrolytic plate, the positive electrolytic plate, and the singular electrolytic plate assembly structure formed by the staggered arrangement in sequence. Furthermore, the first electrolytic unit and the third electrolytic unit each have a positive current terminal and a negative current terminal, And the two adjacent electrolysis units are electrically connected by the positive current end and the negative current end of the corresponding electrolysis unit to form a multi-core electrolysis loop device; wherein: A plurality of electrolysis plates of the electrolysis device, a plurality of first through holes are provided on the periphery of each electrolysis plate, and a plurality of electrolysis holes are provided on the plate body in the periphery; A plurality of insulating and leak-proof gaskets are sleeved on the peripheries of the two sides of the electrolytic plate to make the surroundings of the electrolytic device form a hermetic shape; A first heat sink and a second heat sink, the periphery of which is made in accordance with the shape of the electrolytic plate and the position of the first through hole, and is correspondingly provided with a second through hole for leaning against the electrolytic plate The front and back sides of the device further make the front and back sides of the electrolysis device also form a sealed shape, so that the inside of the electrolysis device becomes a connected electrolytic cell, and the first heat sink and the second heat sink , The inner side of the periphery is a convex hollow body, and is provided with a large number of heat dissipation fins. By this, when a power supply input direct current to the positive and negative current terminals, the electrolysis of each adjacent electrolytic plate The holes form a positive electrode or a negative electrode, respectively, so that the aqueous solution passing through the electrolytic hole is electrolyzed to generate hydrogen and oxygen; An aqueous solution inlet is provided on the first heat sink or the second heat sink, and is used to send the aqueous solution in the tank to the aqueous solution inlet through a first conduit through the aqueous solution outlet; and A hydrogen and oxygen outlet is provided on the first heat sink or the second heat sink, and is used to send the hydrogen and oxygen generated by the electrolysis device to the hydrogen and oxygen inlet of the tank through a second conduit; A first temperature sensor is installed in the tank to detect the temperature of the aqueous solution in the tank. When the temperature is too high, it sends a signal to a controller to make the main board of the hydrogen and oxygen generator Close to rest; and A second temperature sensor is arranged at one of the first heat sink or the second heat sink to detect the temperature of the electrolyte in the electrolytic cell and transmit the temperature signal to a current control unit, After receiving the temperature signal of the second temperature sensor, the current control unit adjusts whether the DC power supplied by the power supply to the electrolysis device is boosted or reduced according to the set temperature. 如申請專利範圍第1項所述之多核心高效型氫氧產生機,其中,該第二溫度感測器偵測該電解槽內之電解液溫度,當電解液溫度未超過45度之前,該電流控制單元令該電源供應器升高直流電壓至9V,當電解液溫度超過45度以上時,該電流控制單元調令該電源供應器降低該直流電壓至7.5-7.8V。The multi-core high-efficiency oxyhydrogen generator described in the first item of the scope of patent application, wherein the second temperature sensor detects the temperature of the electrolyte in the electrolytic cell. When the temperature of the electrolyte does not exceed 45 degrees, the The current control unit causes the power supply to increase the DC voltage to 9V. When the electrolyte temperature exceeds 45 degrees, the current control unit adjusts the power supply to reduce the DC voltage to 7.5-7.8V. 如申請專利範圍第1項所述之多核心高效型氫氧產生機,其中,該水溶液輸出口係設在該槽體其中一側面的下方,該氫氧氣輸入口係設在該槽體其中一側面的上方,以及更包括一視窗係設在該槽體其中一側面,用以觀察該槽體內部的水溶液高度。The multi-core high-efficiency oxyhydrogen generator described in item 1 of the scope of patent application, wherein the aqueous solution outlet is arranged below one of the side surfaces of the tank body, and the hydrogen and oxygen input port is arranged on one of the tank bodies The upper side of the side surface and a window is arranged on one of the side surfaces of the tank body to observe the height of the aqueous solution inside the tank body. 如申請專利範圍第1項所述之多核心高效型氫氧產生機,其中,該電解槽更包括一釋液口。The multi-core high-efficiency oxyhydrogen generator described in item 1 of the scope of patent application, wherein the electrolytic cell further includes a liquid discharge port. 如申請專利範圍第1項所述之多核心高效型氫氧產生機,其中,該蓋體於該氫氧氣輸出口之前設有一位於該槽體內的過濾筒,另該蓋體上更包括設有一水溶液注入口,用以補充該槽體內的水溶液;以及一氣體過濾裝置設在該蓋體上,用以將由該氫氧氣輸出口送出的氣體加以過濾。The multi-core high-efficiency oxyhydrogen generator described in item 1 of the scope of patent application, wherein the cover is provided with a filter cartridge located in the tank before the oxyhydrogen output port, and the cover further includes a The aqueous solution injection port is used to supplement the aqueous solution in the tank; and a gas filtering device is arranged on the cover to filter the gas sent from the hydrogen and oxygen output port. 如申請專利範圍第1項所述之多核心高效型氫氧產生機,其中,該第一散熱片及一第二散熱片的上下端設有向外翻摺的上凸耳及下凸耳,該上凸耳用以結合在該槽體的底部,該下凸耳用以結合在一固定板上。For example, the multi-core high-efficiency oxyhydrogen generator described in item 1 of the scope of patent application, wherein the upper and lower ends of the first heat sink and the second heat sink are provided with upper and lower lugs that are turned outwards, The upper lug is used to be combined with the bottom of the groove body, and the lower lug is used to be combined with a fixing plate.
TW109101556A 2020-01-16 2020-01-16 Multi-core high-efficiency hydrogen and oxygen generator TWI738181B (en)

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Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2594654Y (en) * 2003-01-15 2003-12-24 伍静能源科技股份有限公司 Oxygen-hydrogen mixed fuel producer
CN105498065A (en) * 2014-10-16 2016-04-20 林信湧 Gas generator

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2594654Y (en) * 2003-01-15 2003-12-24 伍静能源科技股份有限公司 Oxygen-hydrogen mixed fuel producer
CN105498065A (en) * 2014-10-16 2016-04-20 林信湧 Gas generator

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