TWI683701B - Hydrogen generator and using method thereof - Google Patents

Abstract

A hydrogen generator including a gas-gathering element, a communicating element, an accommodating element and a hydrogen producing assembly is provided. The gas-gathering element includes a first body having a gas-gathering space, a first end and a second end, a communicating portion configured between the first end and the gas-gathering space, and a first connecting portion configured in the first end. The communicating element is configured in the second end. The accommodating element includes a second body having an accommodating space and an opening portion and a second connecting portion. The second connecting portion is configured in the opening portion and connected with the first connecting portion. The hydrogen producing assembly is disposed in the accommodating space. The accommodating element is suitable for being introduced pure water to react with the hydrogen producing assembly to produce hydrogen. A using method of the hydrogen generator is further provided.

Description

氫氣產生器及其使用方法Hydrogen generator and method of use

本發明涉及一種氣體產生器及其使用方法，特別是一種氫氣產生器及其使用方法。The invention relates to a gas generator and a method for using the same, in particular to a hydrogen generator and a method for using the same.

氫氣目前廣為人們所利用。在日常生活方面，由於目前人們的身體常受到外來物質的影響或常發生異常的新陳代謝，因此人們的身體常會產生壞的過氧化自由基(過氧化物質與毒性自由基)。過氧化自由基常會造成人們的身體發炎、痠痛、老化、發生癌症或心血管疾病。氫氣由於還原力強，因此可降解或中和過氧化自由基對細胞的傷害，增加免疫力及減低慢性病侵害的機率，以增進健康。Hydrogen is currently widely used by people. In daily life, because people's bodies are often affected by foreign substances or abnormal metabolism often occurs, people's bodies often produce bad peroxide radicals (peroxides and toxic free radicals). Peroxide free radicals often cause inflammation, soreness, aging, cancer or cardiovascular disease. Hydrogen has strong reducing power, so it can degrade or neutralize the damage of peroxide free radicals to cells, increase immunity and reduce the chance of chronic disease damage to improve health.

然而，目前製備氫氣的方法主要是採用電解方式生成。然而，這種方法需要的裝置複雜，價格昂貴，並且無法實現隨時隨地製備氫氣，因此，如何能夠便利地取得氫氣成為了迫切需要解決的問題。However, the current method of preparing hydrogen is mainly generated by electrolysis. However, this method requires complicated equipment, is expensive, and cannot produce hydrogen anytime, anywhere. Therefore, how to obtain hydrogen conveniently becomes an urgent problem to be solved.

本發明的目的在於提供一種氫氣產生器及其使用方法，以便利地取得氫氣，進而提升人體保健。The purpose of the present invention is to provide a hydrogen generator and a method of using the same, so as to obtain hydrogen conveniently, thereby improving human health.

為達上述目的，本發明提供一種氫氣產生器，其適於產生氫氣並置放於一密閉裝水容器中。該氫氣產生器包括一集氣件、一導通件、一容置件及一製氫材料組。該集氣件具有一第一本體、一導通部以及一第一連接部，該第一本體具有一集氣空間、一第一端以及一第二端，其中該第一連接部設於該第一端，而該導通部設於該第一端與該集氣空間之間。該導通件設置於該第一本體的該第二端。該容置件具有一第二本體以及一第二連接部，該第二本體具有一容置空間以及一端口部，其中該第二連接部設於該端口部，且適於與該第一連接部連結。該製氫材料組配置於該容置空間。其中，該容置件適於引入純水來與該製氫材料組反應以產生氫氣，該氫氣並依序經該導通部、該集氣空間、該導通件進入該密閉裝水容器。To achieve the above object, the present invention provides a hydrogen generator, which is suitable for generating hydrogen and placed in a closed water container. The hydrogen generator includes a gas collecting part, a conducting part, an accommodating part and a hydrogen production material group. The gas collecting member has a first body, a conducting part and a first connecting part, the first body has a gas collecting space, a first end and a second end, wherein the first connecting part is disposed on the first One end, and the conducting portion is provided between the first end and the gas collection space. The conducting member is disposed at the second end of the first body. The accommodating member has a second body and a second connecting portion, the second body has an accommodating space and a port portion, wherein the second connecting portion is provided on the port portion and is suitable for connecting with the first Department Link. The hydrogen production material group is disposed in the accommodating space. Wherein, the accommodating member is suitable for introducing pure water to react with the hydrogen-producing material group to generate hydrogen gas, and the hydrogen gas sequentially enters the closed water-filled container through the conducting part, the gas collecting space, and the conducting member.

在本發明的一實施例中，該集氣件是一管件，該導通件為一矽膠管塞，該導通部是自該管件內延伸出，以分隔該第一端與該集氣空間，且該導通部具有一第一導氣流道，該導通件具有一第二導氣流道，該氫氣依序經該第一導氣流道、該集氣空間、該第二導氣流道進入該密閉裝水容器。In an embodiment of the present invention, the gas collecting member is a pipe member, the conducting member is a silicone tube plug, the conducting part extends from the pipe member to separate the first end from the gas collecting space, and The conducting part has a first gas flow channel, the conducting part has a second gas flow channel, and the hydrogen passes through the first gas flow channel, the gas collection space, and the second gas flow channel in order to enter the sealed packed water container.

在本發明的一實施例中，該製氫材料組包括金屬鎂材料、矽石材料、氫化鈣材料，其中金屬鎂材料的比重＞矽石材料的比重＞氫化鈣材料的比重。In an embodiment of the present invention, the hydrogen production material group includes a metal magnesium material, a silica material, and a calcium hydride material, wherein the specific gravity of the metal magnesium material>specific gravity of the silica material>specific gravity of the calcium hydride material.

在本發明的一實施例中，該製氫材料組包括一礦化陶瓷以及一氫氣發生劑，該容置件更包括一緩衝結構，該容置空間具有一第一部分以及一第二部分，該第一部分較該第二部分靠近該端口部，該礦化陶瓷配置於該第一部分，該氫氣發生劑配置於該第二部分，而該緩衝結構配置於該第一部分與該第二部分之間，且該礦化陶瓷是含矽材料的礦化陶瓷，該氫氣發生劑包括金屬鎂材料、矽石材料、氫化鈣材料。In an embodiment of the present invention, the hydrogen-producing material group includes a mineralized ceramic and a hydrogen generating agent, the accommodating member further includes a buffer structure, the accommodating space has a first part and a second part, the The first part is closer to the port than the second part, the mineralized ceramic is arranged in the first part, the hydrogen generating agent is arranged in the second part, and the buffer structure is arranged between the first part and the second part, Moreover, the mineralized ceramic is a mineralized ceramic containing silicon material, and the hydrogen generating agent includes metal magnesium material, silica material, and calcium hydride material.

在本發明的一實施例中，該導通部為一錐形結構，而該第二本體更包括一密封結構，該密封結構封閉該端口部，當該第二連接部與該第一連接部連結時，該錐形結構會破除該密封結構。In an embodiment of the present invention, the conducting portion is a tapered structure, and the second body further includes a sealing structure that closes the port portion when the second connecting portion is connected to the first connecting portion At this time, the tapered structure will break the sealing structure.

本發明再提供一種氫氣產生器的使用方法，包括下列步驟： 提供一氫氣產生器，該氫氣產生器具有一集氣件、一導通件、一容置件以及一製氫材料組，該集氣件具有一第一本體、一導通部以及一第一連接部，該第一本體具有一集氣空間、一第一端以及一第二端，該第一連接部設於該第一端，而該導通部設於該第一端與該集氣空間之間，該導通件設置於該第一本體的該第二端，該容置件具有一第二本體以及一第二連接部，該第二本體具有一容置空間以及一端口部，該第二連接部設於該端口部，且適於與該第一連接部連結，該製氫材料組配置於該容置空間； 倒置該集氣件，並於該第一端裝盛純水； 使該容置件經該第二連接部與該集氣件的該第一連接部連結；以及 轉動該氫氣產生器，使純水進入該容置空間，並與該製氫材料組反應以產生氫氣； 其中，該氫氣產生器置適於放於一密閉裝水容器中，而氫氣依序經該導通部、該集氣空間、該導通件進入該密閉裝水容器。The invention further provides a method for using a hydrogen generator, including the following steps: providing a hydrogen generator, the hydrogen generator having a gas collecting member, a conducting member, a containing member, and a hydrogen production material group, the gas collecting member It has a first body, a conducting part and a first connection part. The first body has a gas collection space, a first end and a second end. The first connection part is provided on the first end and the The conducting part is disposed between the first end and the gas collecting space, the conducting part is disposed at the second end of the first body, the accommodating part has a second body and a second connecting part, the second The body has an accommodating space and a port portion, the second connecting portion is provided at the port portion, and is suitable for connecting with the first connecting portion, the hydrogen-generating material set is disposed in the accommodating space; the gas collecting member is inverted And install pure water at the first end; connect the accommodating member to the first connecting part of the gas collecting member via the second connecting part; and rotate the hydrogen generator to make pure water enter the accommodating space, And react with the hydrogen production material group to generate hydrogen; wherein, the hydrogen generator is suitable for being placed in a closed water container, and the hydrogen passes through the conducting part, the gas collecting space, and the conducting part into the enclosure in sequence Fill the water container.

為了讓上述目的、技術特徵以及實際實施後的增益性更為明顯易懂，於下文中將係以較佳的實施範例輔佐對應相關的圖式來進行更詳細的說明。In order to make the above purpose, technical features and gain after actual implementation more obvious and understandable, in the following, a more detailed description will be given with the help of corresponding examples in conjunction with preferred implementation examples.

為更清楚瞭解本發明的特徵、內容與優點及其所能達成的功效，茲將本發明配合附圖，並以實施例的表達形式詳細說明如下，而其中所使用的圖式，其主旨僅為示意及輔助說明書之用，未必為本發明實施後的真實比例與精準配置，故不應就所附的圖式的比例與配置關係解讀、侷限本發明於實際實施上的權利範圍。In order to more clearly understand the features, contents, advantages, and achievable effects of the present invention, the present invention is described in detail in conjunction with the drawings and in the form of expressions of the embodiments, and the drawings used therein have the main purpose of For the purpose of illustration and supplementary description, it may not be the true scale and precise configuration after the implementation of the present invention, so the scale and configuration relationship of the accompanying drawings should not be interpreted and limited to the scope of the present invention in practical implementation.

本發明的優點、特徵以及達到的技術方法將參照例示性實施例及所附圖式進行更詳細地描述而更容易理解，且本發明或可以不同形式來實現，故不應被理解僅限於此處所陳述的實施例，相反地，對所屬技術領域具有通常知識者而言，所提供的實施例將使本揭露更加透徹與全面且完整地傳達本發明的範疇，且本發明將僅為所附加的申請專利範圍所定義。The advantages, features and technical methods of the present invention will be described in more detail with reference to the exemplary embodiments and the accompanying drawings to make it easier to understand, and the present invention may be implemented in different forms, so it should not be understood that it is limited to this The embodiments stated on the contrary, for those of ordinary skill in the art, the provided embodiments will make the disclosure more thorough, comprehensive and complete to convey the scope of the present invention, and the present invention will only be added Defined by the scope of the patent application.

圖1繪示本發明一實施例的氫氣產生器的示意圖。圖2繪示圖1的集器件的示意圖。圖3繪示圖1的容置件與製氫材料組的示意圖。圖4繪示圖1的容置件以及倒置盛水的集器件的示意圖。圖5繪示圖1的氫氣產生器置入一密閉裝水容器的示意圖。請參考圖1、圖2、圖3、圖4與圖5，本實施例的氫氣產生器100適於產生氫氣並可置放於一密閉裝水容器200中，以讓容器200中的水L2與氫氣混合而成為富含氫氣的富氫水。基於氫氣在氧化還原反應中屬於還原劑，過氧化自由基的不成對電子會與氫氣結合。所以，氫氣在人體內能消除過氧化自由基而避免過氧化自由基破壞人體。此外，氫氣亦是一種抗氧化物質，能減緩人體內的氧化反應而延緩人體老化，且對於感染性休克有治療效果，亦能讓移植器官後的損傷更快恢復，在醫療上具有加速復健的效果。另外，氫氣也有治療腦創傷及消炎等效果。更由於氫氣是所有元素中分子量最小的元素，常溫常壓下以氣體形式存在，因此人體可以利用氫氣的方法除了直接吸用氫氣之外，就是將氫氣溶入水中，藉助水為載體進入身體，在體內擴散從而對人體因過氧化自由基所製造的氧化產生還原作用，進而達到醫療保健的功效。FIG. 1 is a schematic diagram of a hydrogen generator according to an embodiment of the invention. FIG. 2 is a schematic diagram of the collector device of FIG. 1. FIG. 3 is a schematic diagram of the container and the hydrogen-generating material group of FIG. 1. 4 is a schematic diagram of the accommodating member of FIG. 1 and the water-collecting device inverted. FIG. 5 is a schematic diagram of the hydrogen generator of FIG. 1 placed in a closed water container. Please refer to FIG. 1, FIG. 2, FIG. 3, FIG. 4 and FIG. 5, the hydrogen generator 100 of this embodiment is suitable for generating hydrogen and can be placed in a sealed water container 200 to allow the water L2 in the container 200 Mixed with hydrogen to form hydrogen rich water. Based on the fact that hydrogen belongs to the reducing agent in the redox reaction, the unpaired electrons of peroxide radicals will combine with hydrogen. Therefore, hydrogen can eliminate free radicals in the body and prevent free radicals from damaging the body. In addition, hydrogen is also an anti-oxidant, which can slow down the oxidation reaction in the human body and delay the aging of the human body, and has a therapeutic effect on septic shock. It can also recover the injury after organ transplantation more quickly, and has accelerated rehabilitation in medical treatment. Effect. In addition, hydrogen also has the effect of treating brain trauma and anti-inflammatory. Moreover, because hydrogen is the element with the smallest molecular weight among all elements, it exists in the form of gas at normal temperature and pressure. Therefore, in addition to directly absorbing hydrogen, the human body can use hydrogen to dissolve hydrogen into water and use water as a carrier to enter the body. It diffuses in the body to produce a reduction effect on the oxidation produced by the human body due to the free radicals, thereby achieving the effect of medical care.

承上所述，本實施例的氫氣產生器100主要包括一集氣件110、一導通件120、一容置件130及一製氫材料組140。集氣件110具有一第一本體112、一導通部114以及一第一連接部116。此外。第一本體112具有一集氣空間112a、一第一端112b以及一第二端112c。其中，第一連接部116是設於第一端112b，而導通部114則是設於第一端112b與集氣空間112a之間。另外，導通件120是設置於第一本體112的第二端112c。在一較佳實施例中，導通件120亦可一體成型於第一本體112的第二端112，本發明在此不作任何限制。As mentioned above, the hydrogen generator 100 of this embodiment mainly includes a gas collecting member 110, a conducting member 120, a receiving member 130, and a hydrogen production material group 140. The gas collecting member 110 has a first body 112, a conducting portion 114 and a first connecting portion 116. Also. The first body 112 has a gas collecting space 112a, a first end 112b and a second end 112c. The first connection portion 116 is provided at the first end 112b, and the conducting portion 114 is provided between the first end 112b and the gas collection space 112a. In addition, the conducting member 120 is disposed at the second end 112c of the first body 112. In a preferred embodiment, the conducting member 120 can also be integrally formed on the second end 112 of the first body 112, and the invention is not limited thereto.

在本實施例中，集氣件110例如是一管件，導通件120例如為一矽膠管塞。此外，本實施例的導通部114係具有一第一導氣流道114a，而導通件120具有一第二導氣流道120a。特別的是，本實施例的導通部114是自管件內延伸出，以分隔第一端112b與集氣空間112a。另外，導通部114例如是自管件內延伸出的一錐形結構。In this embodiment, the gas collecting member 110 is, for example, a pipe member, and the conducting member 120 is, for example, a silicone pipe plug. In addition, the conducting portion 114 of this embodiment has a first air guiding channel 114a, and the conducting member 120 has a second air guiding channel 120a. In particular, the conducting portion 114 of this embodiment extends from the tube to separate the first end 112b and the gas collection space 112a. In addition, the conducting portion 114 is, for example, a tapered structure extending from the tube.

此外，本實施例的容置件130具有一第二本體132以及一第二連接部134。其中，第二本體132具有一容置空間132a以及一端口部132b。第二連接部134則是設於端口部132b，且適於與第一本體112的第一連接部116連結，進而使得集氣件110可以和容置件130相互結合。第一連接部116例如是一內螺紋結構，而第二連接部134例如是一外螺紋結構，但不以此為限。在本實施例中，容置空間132a例如是由一第一部分S1以及一第二部分S2所構成，第一部分S1係較第二部分S2靠近端口部132b。In addition, the accommodating member 130 of this embodiment has a second body 132 and a second connecting portion 134. The second body 132 has an accommodating space 132a and a port 132b. The second connecting portion 134 is provided on the port portion 132b and is suitable for connecting with the first connecting portion 116 of the first body 112, so that the gas collecting member 110 and the accommodating member 130 can be combined with each other. The first connection portion 116 is, for example, an internal thread structure, and the second connection portion 134 is, for example, an external thread structure, but not limited thereto. In this embodiment, the accommodating space 132a is composed of, for example, a first portion S1 and a second portion S2. The first portion S1 is closer to the port portion 132b than the second portion S2.

另外，本實施例的製氫材料組140例如是包括一礦化陶瓷142以及一氫氣發生劑144。製氫材料組140是配置於容置空間132a中。進一步地說，礦化陶瓷142例如是配置於第一部分S1，氫氣發生劑144例如是配置於第二部分S2。其中，礦化陶瓷142例如是含矽材料的礦化陶瓷，氫氣發生劑144則例如是包括金屬鎂材料、矽石材料、氫化鈣材料。如此一來，容置件130在引入純水或是適當的水L1並與集器件110結合之後，氫氣產生器100即可置放至例如是密閉的裝水容器200中。進而，容置件130所引入的純水或是適當的水L1可與製氫材料組140反應以產生氫氣，而氫氣即依序經導通部114的第一導氣流道114a、集氣空間112a、導通件120的第二導氣流道120a進入密閉裝水容器200。在適當搖動密閉裝水容器200後，氫氣即可與容器200中的水L2混合而成為富含氫氣的富氫水。其中，該氫氣發生劑144組成的比重範圍例如是：金屬鎂材料的比重＞矽石材料的比重＞氫化鈣材料的比重。此外，當氫氣產生器110所產生的氫氣進入容器200之後，容器200的液面會因壓力而下降。In addition, the hydrogen production material group 140 of this embodiment includes, for example, a mineralized ceramic 142 and a hydrogen generating agent 144. The hydrogen production material group 140 is disposed in the accommodating space 132a. Further, for example, the mineralized ceramic 142 is arranged in the first part S1, and the hydrogen generating agent 144 is arranged in the second part S2, for example. Wherein, the mineralized ceramic 142 is, for example, a mineralized ceramic containing silicon material, and the hydrogen generating agent 144 includes, for example, metal magnesium material, silica material, and calcium hydride material. In this way, after the container 130 introduces pure water or suitable water L1 and combines with the collector 110, the hydrogen generator 100 can be placed in, for example, a closed water container 200. Furthermore, the pure water or suitable water L1 introduced by the accommodating member 130 can react with the hydrogen-generating material group 140 to generate hydrogen gas, and the hydrogen gas sequentially passes through the first air guiding channel 114a and the gas collecting space 112a of the conducting portion 114 2. The second air flow channel 120a of the conducting member 120 enters the sealed water container 200. After the sealed water-filled container 200 is properly shaken, the hydrogen can be mixed with the water L2 in the container 200 to become hydrogen-rich hydrogen-rich water. The specific gravity range of the hydrogen generating agent 144 is, for example, specific gravity of metal magnesium material>specific gravity of silica material>specific gravity of calcium hydride material. In addition, after the hydrogen generated by the hydrogen generator 110 enters the container 200, the liquid level of the container 200 may drop due to pressure.

值得一提的是，本實施例的製氫材料組140例如是包括了礦化陶瓷142。又，礦化陶瓷142例如是含矽材料的礦化陶瓷。因此，流經第一部分S1的水會與含矽材料(SiO2)的礦化陶瓷反應而呈弱酸性。本實施例即再藉由上述呈弱酸性的水溶液來與包含金屬鎂材料與氫化鈣材料的氫氣發生劑144產生較劇烈的反應，以更有效地產生氫氣。換言之，氫化鈣材料的配置比重即使調低，本實施例仍可以藉由礦化陶瓷142的配置來有效地產生氫氣。再者，在氫氣發生劑144中，本實施例係使金屬鎂材料的配置比重係大於矽石材料的比重以及氫化鈣材料的比重。因此，本實施例的配置可使氫氣反應具有加乘效果，以更能有效延長產生氫氣的時間。It is worth mentioning that the hydrogen-producing material group 140 of this embodiment includes, for example, a mineralized ceramic 142. The mineralized ceramic 142 is, for example, a mineralized ceramic containing silicon. Therefore, the water flowing through the first part S1 will react with the mineralized ceramic containing silicon material (SiO2) and become weakly acidic. In this embodiment, the weakly acidic aqueous solution is used to generate a more violent reaction with the hydrogen generating agent 144 including the metal magnesium material and the calcium hydride material to generate hydrogen more efficiently. In other words, even if the specific gravity of the calcium hydride material is lowered, the present embodiment can still efficiently generate hydrogen gas through the configuration of the mineralized ceramic 142. Furthermore, in the hydrogen generating agent 144, in this embodiment, the specific gravity of the metal magnesium material is greater than the specific gravity of the silica material and the specific gravity of the calcium hydride material. Therefore, the configuration of this embodiment can make the hydrogen reaction have a multiplication effect, so as to effectively extend the time for generating hydrogen.

在一較佳實施例中，容置件130例如還可包括一緩衝結構136。其中，緩衝結構136例如是配置於第一部分S1與第二部分S2之間，以分隔礦化陶瓷142以及氫氣發生劑144。在本實施例中，緩衝結構136可以減緩流入第一部分S1的水進入第二部分S2的時間。進而，集氣件110與容置件130結合，且容置件130引入純水或是適當的水L1之後，流經第一部分S1的水會受到緩衝結構136的作用而稍延緩進入第二部分S2的時間。如此一來，氫氣產生器110的整體即有足夠的時間置放至密閉裝水容器200中。其中，緩衝結構136例如是一高密度無紡布，但不以此為限。緩衝結構136例如可以應用超聲波熔接的方式固定於第一部分S1與第二部分S2之間。In a preferred embodiment, the accommodating member 130 may further include a buffer structure 136, for example. The buffer structure 136 is disposed between the first portion S1 and the second portion S2 to separate the mineralized ceramic 142 and the hydrogen generating agent 144, for example. In this embodiment, the buffer structure 136 can slow the time for the water flowing into the first part S1 to enter the second part S2. Furthermore, after the gas collecting member 110 is combined with the accommodating member 130, and the accommodating member 130 introduces pure water or appropriate water L1, the water flowing through the first part S1 will be slightly delayed by the buffer structure 136 into the second part S2 time. In this way, the entire hydrogen generator 110 has sufficient time to be placed in the sealed water container 200. The buffer structure 136 is, for example, a high-density non-woven fabric, but it is not limited thereto. The buffer structure 136 may be fixed between the first portion S1 and the second portion S2 by ultrasonic welding, for example.

另一方面，在本實施例中，第二本體132還可包括一密封結構138。密封結構138係用以封閉端口部132b，以有效地將製氫材料組140存放在容置件130中。值得一提的是，當集氣件110與容置件130透過第一連接部116與第二連接部134之連接關係而相互結合時，由於導通部114例如是自集氣件110內延伸出的一錐形結構，因此例如是錐形結構的導通部114可以輕易地破除密封結構138。On the other hand, in this embodiment, the second body 132 may further include a sealing structure 138. The sealing structure 138 is used to close the port portion 132 b to effectively store the hydrogen-generating material group 140 in the accommodating member 130. It is worth mentioning that, when the gas collecting member 110 and the accommodating member 130 are combined with each other through the connection relationship between the first connecting portion 116 and the second connecting portion 134, the conducting portion 114 extends from the gas collecting member 110, for example A conical structure, for example, the conductive portion 114 of the conical structure can easily break the sealing structure 138.

在一較佳實施例中，集氣件110可以倒置(如圖4所示)，並於第一端112b與錐形結構114間的空間S3裝盛純水或是適當的水L1。之後，容置件130例如可以由上而下透過第一連接部116與第二連接部134之連接關係來與集氣件110連結。特別的是，在第一連接部116與第二連接部134連接的過程中，例如是錐形結構的導通部114即可輕易地破除密封結構138。因此，在轉動氫氣產生器100之後(氫氣產生器100回復至圖1所示的狀態)，第一端112b與錐形結構間的空間S3所裝盛的純水或是適當的水L1即可進入該容置空間132a，並與製氫材料組140反應以產生氫氣。 當然，在其他實施例中，密封結構138亦可經由其他適當方式來破除，因而無須使導通部114呈錐形結構。關於導通部114的形狀以及密封結構138的破除方式，本發明在此並不作任何限制。In a preferred embodiment, the gas collecting member 110 may be inverted (as shown in FIG. 4), and the space S3 between the first end 112b and the tapered structure 114 is filled with pure water or suitable water L1. After that, the accommodating member 130 may be connected to the gas collecting member 110 through the connection relationship between the first connecting portion 116 and the second connecting portion 134 from top to bottom, for example. In particular, during the connection of the first connection portion 116 and the second connection portion 134, for example, the conductive portion 114 having a tapered structure can easily break the sealing structure 138. Therefore, after rotating the hydrogen generator 100 (the hydrogen generator 100 returns to the state shown in FIG. 1), the pure water or the appropriate water L1 contained in the space S3 between the first end 112b and the tapered structure may be sufficient Enter the accommodating space 132a, and react with the hydrogen production material group 140 to generate hydrogen gas. Of course, in other embodiments, the sealing structure 138 can also be broken by other suitable methods, so there is no need to make the conducting portion 114 into a tapered structure. With regard to the shape of the conducting portion 114 and the manner of breaking the sealing structure 138, the present invention does not make any limitation here.

圖6繪示本發明另一實施例的容置件與製氫材料組的示意圖。請再參考圖6，在本實施例中，製氫材料組140可以一袋裝來呈現。同樣地，在本實施例中，製氫材料組140可包括金屬鎂材料、矽石材料、氫化鈣材料，而金屬鎂材料的比重例如是大於矽石材料的比重以及氫化鈣材料的比重。6 is a schematic diagram of a container and a hydrogen-producing material set according to another embodiment of the invention. Please refer to FIG. 6 again. In this embodiment, the hydrogen production material group 140 may be presented in a bag. Similarly, in this embodiment, the hydrogen production material group 140 may include a metal magnesium material, a silica material, and a calcium hydride material, and the specific gravity of the metal magnesium material is, for example, greater than that of the silica material and calcium hydride material.

圖7繪示本發明一實施例的氫氣產生器的使用方法流程圖。請再參考圖7，本實施例的氫氣產生器的使用方法包括下列步驟：7 is a flow chart of a method of using a hydrogen generator according to an embodiment of the invention. Please refer to FIG. 7 again. The method of using the hydrogen generator of this embodiment includes the following steps:

首先，如步驟S710，提供一氫氣產生器，其中氫氣產生器具有一集氣件、一導通件、一容置件以及一製氫材料組。與上述說明相同，本實施例的集氣件110具有一第一本體112、一導通部114以及一第一連接部116。第一本體112具有一集氣空間112a、一第一端112b以及一第二端112c。第一連接部設116於第一端112b，而導通部114設於第一端112b與集氣空間112a之間。導通件120則是設置於第一本體的第二端112c。容置件130則具有一第二本體132以及一第二連接部134。第二本體132具有一容置空間132a以及一端口部132b。第二連接部134設於端口部132b，且適於與第一連接部116連結。製氫材料組140則是配置於該容置空間132a。First, in step S710, a hydrogen generator is provided, wherein the hydrogen generator has a gas collecting member, a conducting member, an accommodating member, and a hydrogen production material set. As described above, the gas collecting member 110 of this embodiment has a first body 112, a conducting portion 114, and a first connecting portion 116. The first body 112 has a gas collecting space 112a, a first end 112b and a second end 112c. The first connecting portion 116 is disposed at the first end 112b, and the conducting portion 114 is disposed between the first end 112b and the gas collection space 112a. The conducting member 120 is disposed on the second end 112c of the first body. The accommodating member 130 has a second body 132 and a second connecting portion 134. The second body 132 has an accommodating space 132a and a port portion 132b. The second connection portion 134 is provided on the port portion 132b and is suitable for coupling with the first connection portion 116. The hydrogen-generating material group 140 is disposed in the accommodating space 132a.

接著，如步驟S720，倒置集氣件，並於集氣件的第一端裝盛純水；接著，如步驟S730，使容置件經其第二連接部與集氣件的第一連接部連結；之後，如步驟S740，轉動氫氣產生器，使純水進入容置件的容置空間，並與容置空間中的製氫材料組反應以產生氫氣。 在本實施例中，第一端112b除了可裝盛純水之外，亦可裝盛適當的水，本發明在此並不作任何限制。Next, in step S720, the gas collecting member is inverted, and the first end of the gas collecting member is filled with pure water; then, in step S730, the accommodating member is connected to the first connecting portion of the gas collecting member via its second connecting portion; Then, in step S740, the hydrogen generator is rotated to allow pure water to enter the accommodating space of the accommodating member, and react with the hydrogen-generating material group in the accommodating space to generate hydrogen gas. In this embodiment, in addition to pure water, the first end 112b may also contain appropriate water, and the invention is not limited thereto.

進而，氫氣產生器100即可置適於放於密閉裝水容器200中，而氫氣可依序經導通部114、集氣空間112a、導通件120進入密閉裝水容器200。進而，在適當搖動密閉裝水容器200後，氫氣即可與容器200中的水L2混合而成為富含氫氣的富氫水。Furthermore, the hydrogen generator 100 can be placed in the sealed water container 200, and hydrogen can enter the sealed water container 200 through the conducting portion 114, the gas collecting space 112a, and the conducting member 120 in this order. Furthermore, after the sealed water-filled container 200 is shaken appropriately, hydrogen gas can be mixed with the water L2 in the container 200 to become hydrogen-rich hydrogen-rich water.

綜上所述，本發明的氫氣產生器主要是經由集氣件與容置件的連結來讓原盛置於第一本體之第一端的純水引入至容置件的容置空間，並與容置空間中的製氫材料組反應以產生氫氣。進而，氫氣產生器所產生的氫氣可以和容器中的水充分混合而成為富含氫氣的富氫水。換言之，本發明的氫氣產生器可以藉由簡易的操作即可得到富含氫氣的富氫水。In summary, the hydrogen generator of the present invention mainly introduces the pure water originally placed at the first end of the first body into the accommodating space of the accommodating member through the connection of the gas collecting member and the accommodating member, and It reacts with the hydrogen production material group in the accommodation space to generate hydrogen gas. Furthermore, the hydrogen generated by the hydrogen generator can be fully mixed with the water in the container to become hydrogen-rich hydrogen-rich water. In other words, the hydrogen generator of the present invention can obtain hydrogen-rich hydrogen-rich water with a simple operation.

如此一來，使用者即可便利地取得富含氫氣的富氫水，進而透過引用容器內的富氫水，藉此讓氫分子進入人體，可消除身體過氧化自由基，並使細胞活化，達到抗發炎、保健，及提高抗氧化率等功效。In this way, the user can conveniently obtain hydrogen-rich hydrogen-rich water, and then by referring to the hydrogen-rich water in the container, thereby allowing hydrogen molecules to enter the human body, which can eliminate the body's peroxide free radicals and activate cells, To achieve anti-inflammatory, health care, and improve the antioxidant rate and other effects.

以上實施例僅係為說明本發明之技術思想及特點，其目的在使熟習此項技藝之人士能夠瞭解本創作之內容並據以實施，當不能以之限定本發明之專利範圍，即凡依本發明所揭示之精神所作之均等變化或修飾，仍應涵蓋在本發明之專利範圍內。The above embodiments are only to illustrate the technical ideas and features of the present invention, and its purpose is to enable those skilled in the art to understand the content of the creation and implement it accordingly, but should not limit the patent scope of the present invention. Equal changes or modifications made by the spirit disclosed by the present invention should still be covered by the patent scope of the present invention.

100‧‧‧氫氣產生器100‧‧‧hydrogen generator

110‧‧‧集氣件110‧‧‧Gas collection

112‧‧‧第一本體112‧‧‧The first body

112a‧‧‧集氣空間112a‧‧‧Gas gathering space

112b‧‧‧第一端112b‧‧‧The first end

112c‧‧‧第二端112c‧‧‧Second end

114‧‧‧導通部114‧‧‧Conducting Department

114a‧‧‧第一導氣流道114a‧‧‧The first air channel

116‧‧‧第一連接部116‧‧‧First connection

120‧‧‧導通件120‧‧‧Conducting parts

120a‧‧‧第二導氣流道120a‧‧‧Second air channel

130‧‧‧容置件130‧‧‧Receiving parts

132‧‧‧第二本體132‧‧‧Second body

132a‧‧‧容置空間132a‧‧‧accommodation space

132b‧‧‧端口部132b‧‧‧Port Department

134‧‧‧第二連接部134‧‧‧Second connection

136‧‧‧緩衝結構136‧‧‧buffer structure

138‧‧‧密封結構138‧‧‧Seal structure

140‧‧‧製氫材料組140‧‧‧Hydrogen production material group

142‧‧‧礦化陶瓷142‧‧‧Mineralized ceramics

144‧‧‧氫氣發生劑144‧‧‧Hydrogen generator

200‧‧‧密閉裝水容器200‧‧‧Closed water container

L1、L2‧‧‧水L1, L2‧‧‧‧water

S1‧‧‧第一部分S1‧‧‧Part 1

S2‧‧‧第二部分S2‧‧‧Part 2

S3‧‧‧第一端與錐形結構間的空間S3‧‧‧The space between the first end and the tapered structure

S710-S740‧‧‧步驟S710-S740‧‧‧Step

圖1繪示本發明一實施例的氫氣產生器的示意圖。FIG. 1 is a schematic diagram of a hydrogen generator according to an embodiment of the invention.

圖2繪示圖1的集器件的示意圖。FIG. 2 is a schematic diagram of the collector device of FIG. 1.

圖3繪示圖1的容置件與製氫材料組的示意圖。FIG. 3 is a schematic diagram of the container and the hydrogen-generating material group of FIG. 1.

圖4繪示圖1的容置件以及倒置盛水的集器件的示意圖。4 is a schematic diagram of the accommodating member of FIG. 1 and the water-collecting device inverted.

圖5繪示圖1的氫氣產生器置入一密閉裝水容器的示意圖。FIG. 5 is a schematic diagram of the hydrogen generator of FIG. 1 placed in a closed water container.

圖6繪示本發明另一實施例的容置件與製氫材料組的示意圖。6 is a schematic diagram of a container and a hydrogen-producing material set according to another embodiment of the invention.

圖7繪示本發明一實施例的氫氣產生器的使用方法流程圖。7 is a flow chart of a method of using a hydrogen generator according to an embodiment of the invention.

100‧‧‧氫氣產生器 100‧‧‧hydrogen generator

110‧‧‧集氣件 110‧‧‧Gas collection

112‧‧‧第一本體 112‧‧‧The first body

112a‧‧‧集氣空間 112a‧‧‧Gas gathering space

112b‧‧‧第一端 112b‧‧‧The first end

112c‧‧‧第二端 112c‧‧‧Second end

114‧‧‧導通部 114‧‧‧Conducting Department

114a‧‧‧第一導氣流道 114a‧‧‧The first air channel

116‧‧‧第一連接部 116‧‧‧First connection

120‧‧‧導通件 120‧‧‧Conducting parts

120a‧‧‧第二導氣流道 120a‧‧‧Second air channel

130‧‧‧容置件 130‧‧‧Receiving parts

132‧‧‧第二本體 132‧‧‧Second body

132a‧‧‧容置空間 132a‧‧‧accommodation space

132b‧‧‧端口部 132b‧‧‧Port Department

134‧‧‧第二連接部 134‧‧‧Second connection

140‧‧‧製氫材料組 140‧‧‧Hydrogen production material group

142‧‧‧礦化陶瓷 142‧‧‧Mineralized ceramics

144‧‧‧氫氣發生劑 144‧‧‧Hydrogen generator

Claims (8)

一種氫氣產生器，用於產生氫氣並適於置放於一密閉裝水容器中，該氫氣產生器包括：一集氣件，具有一第一本體、一導通部以及一第一連接部，該第一本體具有一集氣空間、一第一端以及一第二端，其中該第一連接部設於該第一端，而該導通部設於該第一端與該集氣空間之間；一導通件，設置於該第一本體的該第二端；一容置件，具有一第二本體以及一第二連接部，該第二本體具有一容置空間以及一端口部，其中該第二連接部設於該端口部，且適於與該第一連接部連結；以及一製氫材料組，配置於該容置空間；其中，該容置件適於引入純水來與該製氫材料組反應以產生氫氣，該氫氣並依序經該導通部、該集氣空間、該導通件進入該密閉裝水容器；其中，該導通部為一錐形結構，而該第二本體更包括一密封結構，該密封結構封閉該端口部，當該第二連接部與該第一連接部連結時，該錐形結構會破除該密封結構。 A hydrogen generator is used to generate hydrogen and is suitable for being placed in a closed water-filled container. The hydrogen generator includes: a gas collector, having a first body, a conducting portion and a first connecting portion, the The first body has a gas collecting space, a first end, and a second end, wherein the first connecting portion is provided at the first end, and the conducting portion is provided between the first end and the gas collecting space; A conducting member is disposed at the second end of the first body; an accommodating member has a second body and a second connecting portion, the second body has an accommodating space and a port portion, wherein the first Two connection portions are provided at the port portion and are suitable for being connected with the first connection portion; and a hydrogen production material group is arranged in the accommodating space; wherein, the accommodating member is suitable for introducing pure water to the hydrogen production The material group reacts to generate hydrogen, and the hydrogen enters the closed water container through the conducting part, the gas collecting space, and the conducting part in sequence; wherein, the conducting part is a tapered structure, and the second body further includes A sealing structure that closes the port portion. When the second connecting portion is connected to the first connecting portion, the tapered structure will break the sealing structure. 如申請專利範圍第1項所述之氫氣產生器，其中該集氣件是一管件，該導通件為一矽膠管塞，該導通部是自該管件內延伸出，以分隔該第一端與該集氣空間，且該導通部具有一第一導氣流道，該導通件具有一第二導氣流道，該氫氣依序經該第一導氣流道、該集氣空間、該第二導氣流道進入該密閉裝水容器。 The hydrogen generator as described in item 1 of the patent application, wherein the gas collecting member is a pipe member, the conducting member is a silicone rubber plug, and the conducting part extends from the pipe member to separate the first end from the The gas collection space, and the conducting part has a first gas flow channel, the conducting member has a second gas flow channel, the hydrogen gas sequentially passes through the first gas flow channel, the gas collection space, and the second gas flow channel Enter the closed water container. 如申請專利範圍第1項所述之氫氣產生器，其中該製氫材料組包括金屬鎂材料、矽石材料、氫化鈣材料，其中金屬鎂材料的比重>矽石材料的比重>氫化鈣材料的比重。 The hydrogen generator as described in item 1 of the patent application scope, wherein the hydrogen production material group includes metal magnesium material, silica material, and calcium hydride material, wherein the specific gravity of metal magnesium material>specific gravity of silica material>calcium hydride material proportion. 如申請專利範圍第1項所述之氫氣產生器，其中該製氫材料組包括一礦化陶瓷以及一氫氣發生劑，該容置件更包括一緩衝結構，該容置空間具有一第一部分以及一第二部分，該第一部分較該第二部分靠近該端口部，該礦化陶瓷配置於該第一部分，該氫氣發生劑配置於該第二部分，而該緩衝結構配置於該第一部分與該第二部分之間，且該礦化陶瓷是含矽材料的礦化陶瓷，該氫氣發生劑包括金屬鎂材料、矽石材料、氫化鈣材料。 The hydrogen generator as described in item 1 of the patent application scope, wherein the hydrogen-producing material group includes a mineralized ceramic and a hydrogen generating agent, the accommodating member further includes a buffer structure, and the accommodating space has a first part and A second part, the first part is closer to the port than the second part, the mineralized ceramic is arranged in the first part, the hydrogen generating agent is arranged in the second part, and the buffer structure is arranged in the first part and the Between the second part, and the mineralized ceramic is a mineralized ceramic containing silicon material, and the hydrogen generating agent includes metal magnesium material, silica material, and calcium hydride material. 一種氫氣產生器的使用方法，包括：提供一氫氣產生器，該氫氣產生器具有一集氣件、一導通件、一容置件以及一製氫材料組，該集氣件具有一第一本體、一導通部以及一第一連接部，該第一本體具有一集氣空間、一第一端以及一第二端，該第一連接部設於該第一端，而該導通部設於該第一端與該集氣空間之間，該導通件設置於該第一本體的該第二端，該容置件具有一第二本體以及一第二連接部，該第二本體具有一容置空間以及一端口部，該第二連接部設於該端口部，且適於與該第一連接部連結，該製氫材料組配置於該容置空間；倒置該集氣件，並於該第一端裝盛純水；使該容置件經該第二連接部與該集氣件的該第一連接部連結；以及 轉動該氫氣產生器，使純水進入該容置空間，並與該製氫材料組反應以產生氫氣；其中，該氫氣產生器置適於放於一密閉裝水容器中，而氫氣依序經該導通部、該集氣空間、該導通件進入該密閉裝水容器；其中，該導通部為一錐形結構，而該第二本體更包括一密封結構，該密封結構封閉該端口部，當該第二連接部與該第一連接部連結時，該錐形結構會破除該密封結構。 A method of using a hydrogen generator includes: providing a hydrogen generator, the hydrogen generator having a gas collecting member, a conducting member, a containing member, and a hydrogen generating material set, the gas collecting member having a first body, A conducting part and a first connecting part, the first body has a gas collecting space, a first end and a second end, the first connecting part is provided at the first end, and the conducting part is provided at the first Between one end and the gas collecting space, the conducting member is disposed at the second end of the first body, the accommodating member has a second body and a second connecting portion, and the second body has a accommodating space And a port portion, the second connecting portion is provided on the port portion, and is suitable for connecting with the first connecting portion, the hydrogen-generating material group is disposed in the accommodating space; the gas collecting member is inverted, and the first End containing pure water; connecting the accommodating member to the first connecting portion of the gas collecting member via the second connecting portion; and Rotate the hydrogen generator to make pure water enter the accommodating space and react with the hydrogen production material group to generate hydrogen; wherein, the hydrogen generator is suitable for being placed in a closed water container, and the hydrogen passes through The conducting part, the gas collecting space, and the conducting part enter the closed water-filled container; wherein, the conducting part is a tapered structure, and the second body further includes a sealing structure, the sealing structure closes the port part, when When the second connection portion is connected to the first connection portion, the tapered structure will break the sealing structure. 如申請專利範圍第5項所述之使用方法，其中該集氣件是一管件，該導通件為一矽膠管塞，該導通部是自該管件內延伸出，以分隔該第一端與該集氣空間，且該導通部具有一第一導氣流道，該導通件具有一第二導氣流道，該氫氣依序經該第一導氣流道、該集氣空間、該第二導氣流道進入該密閉裝水容器。 The use method as described in item 5 of the patent application scope, wherein the gas collecting member is a pipe member, the conducting member is a silicone rubber plug, and the conducting portion extends from the pipe member to separate the first end from the A gas collection space, and the conducting part has a first gas flow channel, the conducting member has a second gas flow channel, the hydrogen passes through the first gas flow channel, the gas collection space, and the second gas flow channel in sequence Enter the closed water container. 如申請專利範圍第5項所述之氫使用方法，其中該製氫材料組包括金屬鎂材料、矽石材料、氫化鈣材料，其中金屬鎂材料的比重>矽石材料的比重>氫化鈣材料的比重。 The method of using hydrogen as described in item 5 of the patent application scope, wherein the hydrogen production material group includes metal magnesium materials, silica materials, and calcium hydride materials, wherein the specific gravity of metal magnesium materials>the specific gravity of silica materials>calcium hydride materials proportion. 如申請專利範圍第5項所述之使用方法，其中該製氫材料組包括一礦化陶瓷以及一氫氣發生劑，該容置件更包括一緩衝結構，該容置空間具有一第一部分以及一第二部分，該第一部分較該第二部分靠近該端口部，該礦化陶瓷配置於該第一部分，該氫氣發生劑配置於該第二部分，而該緩衝結構配置於該第一部分與該第二部分之間，且該礦化陶瓷是含矽材料的礦化陶瓷，該氫氣發生劑包括金屬鎂材料、矽石材料、氫化鈣材料。 The use method as described in item 5 of the patent application scope, wherein the hydrogen-producing material group includes a mineralized ceramic and a hydrogen generating agent, the accommodating member further includes a buffer structure, and the accommodating space has a first part and a The second part, the first part is closer to the port than the second part, the mineralized ceramic is arranged in the first part, the hydrogen generating agent is arranged in the second part, and the buffer structure is arranged in the first part and the first part Between the two parts, and the mineralized ceramic is a mineralized ceramic containing silicon material, and the hydrogen generating agent includes metal magnesium material, silica material, and calcium hydride material.

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