TWM545130U - Gas/liquid generation system featuring real-time production and real-time pressurization, and its gas production machine - Google Patents

Gas/liquid generation system featuring real-time production and real-time pressurization, and its gas production machine Download PDF

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TWM545130U
TWM545130U TW106202733U TW106202733U TWM545130U TW M545130 U TWM545130 U TW M545130U TW 106202733 U TW106202733 U TW 106202733U TW 106202733 U TW106202733 U TW 106202733U TW M545130 U TWM545130 U TW M545130U
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Taiwan
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gas
water
outlet
hydrogen
pressure
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TW106202733U
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Chinese (zh)
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shi-fan Wang
Meng-De Lin
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General Biologicals Corp
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Description

即時製造、即時加壓的氣液產生系統以及其氣體即時製造機Instant manufacturing, instant pressurized gas and liquid production system and its gas instant manufacturing machine

本創作係有關一種氣液產生系統以及其氣體即時製造機,尤指一種即時製造、即時加壓的氣液產生系統以及其氣體即時製造機。The present invention relates to a gas-liquid generating system and a gas instant manufacturing machine thereof, and more particularly to a gas-liquid generating system for instant manufacturing and immediate pressurization, and a gas instant manufacturing machine thereof.

隨著氫氣水(富氫水、水素水)所能提供的功效與優點逐漸被宣傳與推廣,氫氣水製造機因此備受重視,市場上也陸續推出多種的氫氣水製造機。現有氫氣水製造機包含一氫氣產生模組與一水容器,該氫氣產生模組設置於該水容器內,並且將飲用水裝入該水容器內,使該氫氣產生模組浸在飲用水中,該氫氣產生模組可電解該飲用水以產生氫氣,進而所產生的氫氣直接溶入飲用水中,以提供氫氣水供使用者飲用。此外,市場上也推出一種產生氫氣的裝置,並將該裝置所產生的氫氣導入開放式的水容器用來產生氫氣及氫氣水。With the efficacy and advantages that hydrogen water (hydrogen-rich water, water-based water) can provide, it has been promoted and promoted. Hydrogen water production machines have received much attention, and a variety of hydrogen water production machines have been introduced in the market. The existing hydrogen water producing machine comprises a hydrogen generating module and a water container, wherein the hydrogen generating module is disposed in the water container, and the drinking water is filled into the water container, so that the hydrogen generating module is immersed in the drinking water. The hydrogen generating module can electrolyze the drinking water to generate hydrogen, and the generated hydrogen is directly dissolved into the drinking water to provide hydrogen water for the user to drink. In addition, a device for generating hydrogen gas has been introduced on the market, and the hydrogen gas generated by the device is introduced into an open water container for generating hydrogen gas and hydrogen water.

由於現有氫氣水製造機的氫氣產生模組係與飲用水設置於同一個水容器內,只能以水作為電解生成氫氣的原料,而無法以其它液體,如果汁或飲料作為電解之原料。若現有氫氣水製造機的氫氣產生模組與果汁或飲料設置於同一個水容器內,將使得在長時間使用下,果汁或飲料中的細微雜質會因阻塞於該氫氣產生模組上,而使該氫氣產生模組受損造成無法使用,且不容易清洗及孳生細菌等問題,故此,現有氫氣水製造機用以生成氫氣的原料受限僅為液態水,使用上受到限制。另外前述市場上所推出的氫氣水裝置,其僅能單純產生氫氣並將其導入(浸入)開放式水容器中,雖然亦可製造氫氣水及氫氣飲料,但所需製造時間較長、效果較差、不易保存、出氣孔會與液體接觸而汙染出氣口等缺點,且氫氣水中的氫氣會隨時間消散至大氣中。因此,本創作內容是用以改善上述缺點並加入新用途的一種創作。Since the hydrogen generating module of the existing hydrogen water producing machine is installed in the same water container as the drinking water, only water can be used as a raw material for electrolysis to generate hydrogen, and other liquids, such as juice or beverage, cannot be used as a raw material for electrolysis. If the hydrogen generating module of the existing hydrogen water producing machine is disposed in the same water container as the juice or the beverage, the fine impurities in the juice or the beverage may be blocked on the hydrogen generating module under the long-term use. The hydrogen generating module is damaged and cannot be used, and it is not easy to clean and bacteria are generated. Therefore, the raw material for generating hydrogen gas by the existing hydrogen water producing machine is limited to liquid water, and the use thereof is limited. In addition, the hydrogen water device introduced in the market mentioned above can only generate hydrogen gas and introduce it into the open water container. Although hydrogen water and hydrogen beverage can also be produced, the manufacturing time is long and the effect is poor. It is not easy to store, the vent hole will contact the liquid and pollute the gas outlet, and the hydrogen in the hydrogen water will dissipate to the atmosphere with time. Therefore, this creation is a creation to improve the above shortcomings and to add new uses.

本創作之目的在於提供一種即時製造、即時加壓的氣液產生系統及其氣體即時製造機,解決現有氫氣水製造機僅能製造氫氣水或其它能製造氫氣飲料但會汙染出氣孔之問題,並提供一製造快速、操作簡單、可保存氫氣飲料或飲水的製造機,解決市售氫水機使用受限制的缺點。再者,本創作裝置更提供可供呼吸氫氣、氧氣之功能。The purpose of the present invention is to provide a gas-liquid generating system and a gas instant manufacturing machine which are instantly manufactured and instantly pressurized, and solve the problem that the existing hydrogen water producing machine can only produce hydrogen water or other hydrogen-making beverages but pollute the air holes. The utility model also provides a manufacturing machine which is fast in manufacture, simple in operation, and can store hydrogen beverage or drinking water, and solves the disadvantages of limited use of the commercially available hydrogen water machine. Furthermore, the creation device provides a function of breathing hydrogen and oxygen.

本創作即時製造、即時加壓的氣液產生系統包含: 一密閉式容器,具有一氣體入口,該密閉式容器內部供填充液體;以及 一氣體即時製造機,包含: 一機體; 一液位開關水槽,設置於該機體且供容置原料水,該液位開關水槽具有一出水口; 一氫氣氧氣產生單元,設置於該機體且具有一入水口與一主要氣水出口,該氫氣氧氣產生單元的入水口連接該液位開關水槽的出水口,該氫氣氧氣產生單元供即時製造一目標氣體,該主要氣水出口輸出該目標氣體; 一氣體出口,設置於該機體以供該目標氣體通過;以及 一接頭組件,設置於該機體且連接該氣體出口與該密閉式容器的氣體入口,使該氣體出口通過該接頭組件而連通該密閉式容器的氣體入口,供該目標氣體進入該密閉式容器內部,而被氣壓即時加壓以溶入該密閉式容器的液體。The instant-made, instant pressurized gas-liquid generating system of the present invention comprises: a closed container having a gas inlet, the inside of the closed container is filled with liquid; and a gas instant manufacturing machine comprising: a body; a liquid level switch a water tank disposed on the body and accommodating the raw material water, the liquid level switch water tank has a water outlet; a hydrogen oxygen generating unit disposed on the body and having a water inlet and a main gas water outlet, the hydrogen oxygen generating unit The water inlet is connected to the water outlet of the liquid level switch water tank, and the hydrogen oxygen generating unit is configured to instantly manufacture a target gas, the main gas water outlet outputs the target gas; a gas outlet is disposed in the body for the target gas to pass; And a joint assembly disposed on the body and connecting the gas outlet and the gas inlet of the closed container, such that the gas outlet communicates with the gas inlet of the closed container through the joint assembly, and the target gas enters the closed container Internally, the liquid is immediately pressurized by the air pressure to dissolve into the closed container.

本創作氣體即時製造機包含: 一機體; 一液位開關水槽,設置於該機體且供容置原料水,該液位開關水槽具有一出水口; 一氫氣氧氣產生單元,設置於該機體且具有一入水口與一主要氣水出口,該氫氣氧氣產生單元的入水口連接該液位開關水槽的出水口,該氫氣氧氣產生單元供即時製造一目標氣體,該主要氣水出口輸出該目標氣體; 一氣體出口,設置於該機體以供該目標氣體通過;以及 一接頭組件,設置於該機體且連接該氣體出口,供該目標氣體通過該氣體出口與該接頭組件而對外排放。The creation gas instant manufacturing machine comprises: a body; a liquid level switch water tank disposed on the body body for receiving raw material water, the liquid level switch water tank having a water outlet; a hydrogen oxygen generating unit disposed on the body body and having a water inlet and a main gas water outlet, the water inlet of the hydrogen oxygen generating unit is connected to the water outlet of the liquid level switch water tank, the hydrogen oxygen generating unit is for immediately producing a target gas, and the main gas water outlet outputs the target gas; a gas outlet disposed in the body for the target gas to pass through; and a joint assembly disposed on the body and connected to the gas outlet for the target gas to be discharged to the outside through the gas outlet and the joint assembly.

藉由該即時製造、即時加壓的氣液產生系統,透過該氣體即時製造機與待填充氣體的容器分開設計,該氫氣氧氣產生單元不須浸入於待填充氣體的容器內的液體(如:水、飲品、化妝水等液態液體),本創作更以即時製造目標氣體以及即時加壓的方式,供該目標氣體進入該密閉式容器內部而溶入該密閉式容器的液體,解決現有氫氣水製造機僅能製造氫氣水或其它能製造氫氣飲料但會汙染出氣孔之問題,使本創作可製造氫氣或氧氣,以提高所產生氣體的純度、使用範圍、使用壽命以及便利性。By the instant manufacturing, instant pressurized gas-liquid generating system, the gas instant manufacturing machine is separately designed from the container to be filled with gas, and the hydrogen oxygen generating unit does not need to be immersed in the liquid in the container to be filled with gas (eg: The liquid liquid such as water, drink, lotion, etc., the present invention further prepares the target gas and instantly pressurizes the liquid into the sealed container by the target gas, and dissolves the liquid into the closed container to solve the existing hydrogen water. The manufacturing machine can only produce hydrogen water or other problems that can produce hydrogen beverages but pollute the air holes, so that the creation can produce hydrogen or oxygen to improve the purity, scope of use, service life and convenience of the gas produced.

為了能更進一步瞭解本創作為達成預定目的所採取之技術、手段及功效,請參閱以下有關本創作之詳細說明與附圖,相信本創作之目的、特徵與特點,當可由此得一深入且具體之瞭解,然而所附圖式僅提供參考與說明用,並非用來對本創作加以限制者。In order to further understand the techniques, means and effects of this creation in order to achieve the intended purpose, please refer to the following detailed description and drawings of this creation. I believe that the purpose, characteristics and characteristics of this creation can be obtained in this way. The detailed description is to be understood as merely illustrative and not restrictive

請參見圖1所示,其係為本創作即時製造、即時加壓的氣液產生系統之一實施例立體外觀示意圖。本創作即時製造、即時加壓的氣液產生系統包含一氣體即時製造機100以及一密閉式容器30。Please refer to FIG. 1 , which is a schematic perspective view of an embodiment of a gas-liquid generating system for instant manufacturing and instant pressurization. The instant production, instant pressurized gas and liquid production system of the present invention comprises a gas instant manufacturing machine 100 and a closed container 30.

請參考圖1、圖2、圖3與圖6,該氣體即時製造機100包含一機體10、一液位開關水槽11、一氫氣氧氣產生單元12、至少一接頭組件200(如圖6)與至少一氣體出口21、22,或進一步包含一氣水分離單元13、一壓力控制裝置(如圖3)或一顯示模組50。Referring to FIG. 1 , FIG. 2 , FIG. 3 and FIG. 6 , the gas instant manufacturing machine 100 comprises a body 10 , a liquid level switch water tank 11 , a hydrogen oxygen generating unit 12 , and at least one joint assembly 200 ( FIG. 6 ) and The at least one gas outlet 21, 22, or further comprises a gas water separation unit 13, a pressure control device (as shown in FIG. 3) or a display module 50.

該機體10的材質可為一聚甲基丙烯酸甲酯(PPMA或稱做壓克力)、聚碳酸酯(PC)、其它之塑膠材質或金屬材質,然不以上述該等材質為限制。該機體10可供放置該密閉式容器30,且該機體10上部外側設有所述氣體出口21、22,本創作實施例中,所述氣體出口21、22包含一第一氣體出口21與一第二氣體出口22,但不以此為限。該第一、第二氣體出口21、22係供目標氣體(例如:氫氣或氧氣)通過,用以排出所產生的氫氣或氧氣。The material of the body 10 can be a polymethyl methacrylate (PPMA or acrylic), polycarbonate (PC), other plastic materials or metal materials, but not limited by the above materials. The body 10 is configured to be placed in the closed container 30, and the gas outlets 21, 22 are disposed on the outer side of the upper portion of the body 10. In the present embodiment, the gas outlets 21, 22 include a first gas outlet 21 and a The second gas outlet 22 is not limited thereto. The first and second gas outlets 21, 22 are for passage of a target gas (for example, hydrogen or oxygen) for discharging the generated hydrogen or oxygen.

本創作氣體即時製造機100係用以即時製造氫氣或氧氣,並且將所即時製造的氫氣或氧氣對外排放,以即時填充進入裝有液體,如白開水、果汁、飲料…等但不以此為限制的該密閉式容器30中,該密閉式容器30具有一氣體入口,舉例來說,該密閉式容器30的氣體入口可為一密閉式瓶罐或其它可供設置接頭的密閉式瓶罐,其具有縮頸的窄瓶口作為該氣體入口,但不以此為限。藉此,配合該第一氣體出口21與該第二氣體出口22,使得由該兩氣體出口21、22排出的氫氣或氧氣能夠完全、有效率地填充於裝有液體的該密閉式容器30中,並且所填充的氫氣或氧氣可利用壓力原理,能夠被氣壓即時加壓以溶入於所述液體中。以果汁為例,當使用者將裝有果汁的該密閉式容器30填充氫氣後,即可取得可飲用的富含氫氣的果汁;同樣地,以飲料為例,當使用者將裝有飲料的該密閉式容器30填充氫氣後,即可取得可飲用的富含氫氣飲料。The creation gas instant manufacturing machine 100 is used for the instant production of hydrogen or oxygen, and the hydrogen or oxygen produced by the instant is discharged to the immediate filling into the liquid, such as boiled water, juice, beverage, etc., but not limited thereto. In the closed container 30, the closed container 30 has a gas inlet. For example, the gas inlet of the closed container 30 can be a closed bottle or other closed bottle can be provided with a joint. A narrow bottle opening having a neck is used as the gas inlet, but is not limited thereto. Thereby, the first gas outlet 21 and the second gas outlet 22 are matched such that hydrogen or oxygen discharged from the two gas outlets 21, 22 can be completely and efficiently filled in the sealed container 30 containing the liquid. And the filled hydrogen or oxygen can be pressurized by the air pressure to be dissolved in the liquid by the pressure principle. Taking fruit juice as an example, when the user fills the closed container 30 containing the juice with hydrogen, a drinkable hydrogen-rich juice can be obtained; similarly, in the case of a beverage, when the user is to have a beverage After the sealed container 30 is filled with hydrogen, a drinkable hydrogen-rich beverage can be obtained.

如圖1所示,本創作的接頭組件200設置在該機體10,且接頭組件200連接氣體出口21、22與密閉式容器30的氣體入口,使所述氣體出口21、22通過該接頭組件200而連通該密閉式容器30的氣體入口,如此一來。該氣體即時製造機100所製造的氫氣或氧氣可分別通過透過設置於該機體10上部外側的該第一氣體出口21與該第二氣體出口22與接頭組件200而對外排放,即對外排放到該密閉式容器30內。As shown in FIG. 1, the joint assembly 200 of the present invention is disposed in the body 10, and the joint assembly 200 connects the gas outlets 21, 22 with the gas inlets of the closed container 30, and the gas outlets 21, 22 pass through the joint assembly 200. The gas inlet that connects the closed container 30 is thus obtained. The hydrogen or oxygen produced by the gas instant manufacturing machine 100 can be discharged to the outside through the first gas outlet 21 and the second gas outlet 22 and the joint assembly 200 disposed outside the upper portion of the body 10, that is, discharged to the outside. Inside the closed container 30.

舉例來說,若該氣體即時製造機100係用以作為氫氣填充液體(如:水、飲品、化妝水等液體,然不以該些液體為限制本創作之應用)之用時,該第一氣體出口21與該第二氣體出口22則皆可排出氫氣供填充液體之用。再者,若該氣體即時製造機100係用以作為氧氣填充液體之用時,該第一氣體出口21與該第二氣體出口22則皆可排出氧氣供填充液體之用。因此,當使用者同時將兩個裝有液體的密閉式容器30分別接到該第一氣體出口21與該第二氣體出口22時,該氣體即時製造機100可對該兩密閉式容器30內的液體填充氫氣或氧氣。如前所述,在本創作中,該密閉式容器30供容置液體並通過所述接頭組件200連接該第一氣體出口21或該第二氣體出口22,該氣體即時製造機100以加壓方式將一目標氣體強制填充入密閉式容器30中的液體。For example, if the gas instant manufacturing machine 100 is used as a liquid for filling a hydrogen (for example, a liquid such as water, a drink, or a lotion, and not using the liquid as a limitation for the creation of the present invention), the first Both the gas outlet 21 and the second gas outlet 22 can discharge hydrogen gas for filling the liquid. Furthermore, if the gas instant manufacturing machine 100 is used as an oxygen filling liquid, both the first gas outlet 21 and the second gas outlet 22 can discharge oxygen for filling the liquid. Therefore, when the user simultaneously connects the two liquid-filled closed containers 30 to the first gas outlet 21 and the second gas outlet 22, the gas instant manufacturing machine 100 can be inside the two closed containers 30. The liquid is filled with hydrogen or oxygen. As described above, in the present creation, the closed container 30 is for accommodating a liquid and is connected to the first gas outlet 21 or the second gas outlet 22 through the joint assembly 200, and the gas is immediately pressurized by the manufacturing machine 100. In a manner, a target gas is forcibly filled into the liquid in the closed vessel 30.

在本實施例中,可透過滑軌、彈簧元件、承載件的使用與設計,使得該兩氣體出口21、22可因應不同瓶身高度的該等密閉式容器30使用,並且該兩氣體出口21、22可通過所述接頭組件200緊密地抵頂該等密閉式容器30的瓶口,藉此提高操作的便利化、多樣化與通用化,以及氣體填充的高效率化。In this embodiment, the use and design of the slide rails, the spring elements, and the carrier are such that the two gas outlets 21, 22 can be used in response to the closed containers 30 of different bottle heights, and the two gas outlets 21 The joint unit 200 can closely abut the top of the closed container 30, thereby improving the convenience, diversification and generalization of the operation, and increasing the efficiency of gas filling.

所述接頭組件200可為快速接頭組件、螺旋接頭組件或常閉式快速止逆閥接頭組件,其包含可拆組連接的一公接頭201與一母接頭202,該公接頭201與該母接頭202分別裝設於該氣體即時製造機100的氣體出口21、22與該密閉式容器30的氣體入口,使該氣體即時製造機100的氣體出口21、22通過該接頭組件200而連通該密閉式容器30的氣體入口。當對該密閉式容器30填充完成取下後,由於該公接頭201與該母接頭202恢復常閉的狀態,因此,已填充進該密閉式容器30的氣體可充份地留存並溶解於液體中。當非為填充氣體使用時,該公接頭201與該母接頭202為分離狀態且為常閉式,故該氣體即時製造機100所持續產生的氣體不會向外排出散逸,並且累積於內部輸氣管內,致使管內壓力達到額定值時令該氣體即時製造機100之電源關閉,以停止持續產生氣體。當作為填充氣體使用時,該接頭組件200的逆止閥可防止該密閉式容器30的氣體或液體經由該兩氣體出口21、22逆流(倒灌)至氣體即時製造機100的內部。The joint assembly 200 can be a quick joint assembly, a screw joint assembly, or a normally closed quick check valve joint assembly, including a male joint 201 and a female joint 202 that are detachably connected, the male joint 201 and the female joint 202 The gas outlets 21 and 22 of the gas instant manufacturing machine 100 and the gas inlets of the sealed container 30 are respectively installed, and the gas outlets 21 and 22 of the gas instant manufacturing machine 100 are connected to the closed container through the joint assembly 200. 30 gas inlet. After the filling of the sealed container 30 is completed, since the male connector 201 and the female connector 202 are returned to the normally closed state, the gas filled in the sealed container 30 can be sufficiently retained and dissolved in the liquid. in. When not used for the filling gas, the male connector 201 and the female connector 202 are in a separated state and are normally closed, so that the gas continuously generated by the gas instant manufacturing machine 100 is not discharged outward and accumulated in the internal gas pipe. Therefore, when the pressure in the tube reaches the rated value, the power of the gas instant manufacturing machine 100 is turned off to stop the continuous generation of gas. When used as a filling gas, the check valve of the joint assembly 200 prevents gas or liquid of the closed container 30 from flowing back (backflow) to the inside of the gas instant manufacturing machine 100 via the two gas outlets 21, 22.

除了上述用於填充氫氣與氧氣於容置液體的密閉式容器30的應用之外,本創作氣體即時製造機100所產生的氫氣或氧氣可作為呼吸輔助或呼吸供應之用,或供填充入開放式容器之用。換言之,配合特定設計的器材,例如呼吸管(或稱呼吸用鼻管)、口鼻式面罩(或稱呼吸用面罩)…等等,外接於該氣體即時製造機100,可將其產生的氫氣與氧氣引導至所需的人體或動物體內,作供應呼吸或輔助呼吸之用。In addition to the above-described application of the closed container 30 for filling hydrogen and oxygen in the liquid, the hydrogen or oxygen generated by the inventive gas production machine 100 can be used as a breathing aid or a breathing supply, or for filling into the open. For container use. In other words, in conjunction with a specially designed device, such as a breathing tube (or a nasal tube for breathing), a mouth and nose mask (or a mask for breathing), etc., externally connected to the gas instant manufacturing machine 100, the hydrogen gas generated therefrom can be generated. Direct with oxygen to the desired body or animal body for breathing or assisting breathing.

請參見圖2與圖5所示,其中圖2係為本創作氣體即時製造機100的一實施例方塊示意圖,圖5係為本創作氣體即時製造機100的一較佳實施例之內部平面示意圖。請參考圖1、圖2與圖3,該氣體即時製造機100包含一機體10、一液位開關水槽11、一氫氣氧氣產生單元12、至少一接頭組件200與至少一氣體出口21、22,或進一步包含一氣水分離單元13、一壓力控制裝置或一顯示模組50。請參考圖4,該氣體即時製造機100可包含一第一電磁閥17、一第二電磁閥18與一第三電磁閥19。2 and FIG. 5, wherein FIG. 2 is a block diagram of an embodiment of the authoring gas instant manufacturing machine 100, and FIG. 5 is an internal plan view of a preferred embodiment of the authoring gas instant manufacturing machine 100. . Referring to FIG. 1 , FIG. 2 and FIG. 3 , the gas instant manufacturing machine 100 comprises a body 10 , a liquid level switch water tank 11 , a hydrogen oxygen generating unit 12 , at least one joint assembly 200 and at least one gas outlet 21 , 22 . Or further comprising a gas water separation unit 13, a pressure control device or a display module 50. Referring to FIG. 4 , the gas instant manufacturing machine 100 can include a first electromagnetic valve 17 , a second electromagnetic valve 18 , and a third electromagnetic valve 19 .

請參考圖2與圖5,該液位開關水槽11設置於該機體10內,供接收來自一蓄水槽63內經過濾的原料水,原料水係用以電解而產生氫氣與氧氣。其中,該蓄水槽63設有一進水槽61與一過濾杯62,該過濾杯62係連通連接該進水槽61,並且該進水槽61與該過濾杯62係容置於該蓄水槽63內。具體地,該進水槽61與該過濾杯62係容置於該蓄水槽63的上半部。當使用者將原料水倒入該進水槽61後緩緩流入該過濾杯62,並透過該過濾杯62過濾該原料水後,滴(流)入該蓄水槽63的下半部空間,以提供該液位開關水槽11給水使用。請參考圖5,該液位開關水槽11具有一入水口111、一出水口112、一氣水入口113以及一出氣口114,容後說明。當該液位開關水槽11偵測到滿水位時,會同時開啟該氫氣氧氣產生單元12之電源,使該氫氣氧氣產生單元12開始產生氫氣、氧氣及水氣;反之,當該液位開關水槽11偵測到水位不足時,則會關閉該氫氣氧氣產生單元12之電源,此時該氫氣氧氣產生單元12將會停止生成氫氣、氧氣及水氣。Referring to FIG. 2 and FIG. 5, the liquid level switch water tank 11 is disposed in the body 10 for receiving filtered raw material water from a water storage tank 63 for electrolysis to generate hydrogen and oxygen. The water storage tank 63 is provided with a water inlet 61 and a filter cup 62. The filter cup 62 is connected to the water inlet 61, and the water inlet 61 and the filter cup 62 are housed in the water storage tank 63. Specifically, the water inlet 61 and the filter cup 62 are housed in the upper half of the water storage tank 63. When the user pours the raw material water into the water inlet tank 61, it gradually flows into the filter cup 62, and after filtering the raw material water through the filter cup 62, it drops (flows) into the lower half space of the water storage tank 63 to provide The liquid level switch water tank 11 is used for water supply. Referring to FIG. 5, the liquid level switch water tank 11 has a water inlet 111, a water outlet 112, a gas water inlet 113, and an air outlet 114, which will be described later. When the liquid level switch water tank 11 detects the full water level, the power of the hydrogen oxygen generating unit 12 is simultaneously turned on, so that the hydrogen oxygen generating unit 12 starts to generate hydrogen, oxygen and water gas; otherwise, when the liquid level switch sink When the water level is insufficient, the power of the hydrogen oxygen generating unit 12 is turned off, and the hydrogen oxygen generating unit 12 stops generating hydrogen, oxygen and moisture.

請參考圖4與圖5,該第一電磁閥17係連接該蓄水槽63與該液位開關水槽11的該入水口111之間,用以控制該蓄水槽63內的原料水是否流進該液位開關水槽11以補給原料水。亦即,當該液位開關水槽11內的一液位開關偵測到該液位開關水槽11內的水位過低或到達給水水位時,則控制該第一電磁閥17開啟,使得蓄水槽63內的原料水利用地心引力的方式流入該液位開關水槽11,以補給原料水至該液位開關水槽11;反之,當該液位開關偵測到該液位開關水槽11內的水位過高或達到停止給水水位時,則控制該第一電磁閥17關閉,使得蓄水槽63內的原料水不再對該液位開關水槽11給水。Referring to FIG. 4 and FIG. 5, the first electromagnetic valve 17 is connected between the water storage tank 63 and the water inlet 111 of the liquid level switch water tank 11 for controlling whether the raw material water in the water storage tank 63 flows into the water supply port 63. The liquid level switch water tank 11 supplies the raw material water. That is, when a liquid level switch in the liquid level switch water tank 11 detects that the water level in the water level switch water tank 11 is too low or reaches the water supply level, the first electromagnetic valve 17 is controlled to be opened, so that the water storage tank 63 is turned on. The raw material water flows into the liquid level switch water tank 11 by gravity to replenish the raw material water to the liquid level switch water tank 11; otherwise, when the liquid level switch detects that the water level in the liquid level switch water tank 11 is too high When the water supply level is stopped, the first solenoid valve 17 is controlled to be closed, so that the raw material water in the water storage tank 63 is no longer supplied with water to the liquid level switch water tank 11.

請參考圖2與圖5,該氫氣氧氣產生單元12可選用市面上或目前現有的氫氣與氧氣產生模組,其具有一入水口121、一主要氣水出口122以及一次要氣水出口123。在本創作中,當氣體即時製造機100用以提供氫氣時,主要氣體即為氫氣,而次要氣體即為氧氣;當氣體即時製造機100用以提供氧氣時,主要氣體即為氧氣,而次要氣體即為氫氣。該氫氣氧氣產生單元12的該入水口121連接該液位開關水槽11的該出水口112與圖4所示的一第二電磁閥18(容後說明)支路的出水口,用以接收該原料水及氣水分離之回收水,其中該第二電磁閥18係為常閉型的電磁閥。在本創作中,所述作為出口與入口彼此連接的方式係透過可彎曲的軟管、閥件、接頭(含分流接頭)…等所需之構件所實現,此乃所屬技術領域中的技術人員具備的知識與能力,因此在本創作中不再著重說明。Referring to FIG. 2 and FIG. 5, the hydrogen-oxygen generating unit 12 may select a commercially available or currently available hydrogen and oxygen generating module having a water inlet 121, a main gas water outlet 122, and a primary gas water outlet 123. In the present creation, when the gas instant manufacturing machine 100 is used to supply hydrogen, the main gas is hydrogen, and the secondary gas is oxygen; when the gas instant manufacturing machine 100 is used to supply oxygen, the main gas is oxygen, and The secondary gas is hydrogen. The water inlet 121 of the hydrogen oxygen generating unit 12 is connected to the water outlet 112 of the liquid level switch water tank 11 and the water outlet of a second electromagnetic valve 18 (described later) of the branch shown in FIG. 4 for receiving the water outlet. The raw water and the recovered water separated by the gas and water, wherein the second electromagnetic valve 18 is a normally closed electromagnetic valve. In the present creation, the manner in which the outlet and the inlet are connected to each other is realized by means of a member such as a flexible hose, a valve member, a joint (including a split joint), etc., which is a person skilled in the art. Knowledge and ability, so it is no longer highlighted in this creation.

該氫氣氧氣產生單元12供即時製造一目標氣體。該氫氣氧氣產生單元12透過其入水口121所接收到該原料水或氣水分離之回收水後,利用電解方式將該原料水電解分離出該目標氣體(如氧氣或氫氣)。在本實施例中,圖6可以該第一氣體出口21與該第二氣體出口22皆用以排出氫氣為例,因此,該氫氣氧氣產生單元12所產生含有水氣的次要氣體(在本實施例中為氧氣)係由該氫氣氧氣產生單元12的該次要氣水出口123經由該液位開關水槽11的該出氣口114對外排出,並且排出含有水氣的次要氣體(即含有水氣的氧氣)係直接排出至大氣中或供作其它應用。The hydrogen oxygen generating unit 12 is provided for immediate production of a target gas. The hydrogen-oxygen generating unit 12 receives the raw material water or the recovered water separated by the gas-water separation through the water inlet 121, and electrolyzes the raw material water to the target gas (such as oxygen or hydrogen) by electrolysis. In this embodiment, FIG. 6 may be that the first gas outlet 21 and the second gas outlet 22 are both used for discharging hydrogen gas. Therefore, the hydrogen gas generating unit 12 generates a secondary gas containing moisture (in this case). The oxygen gas in the embodiment is discharged from the secondary gas outlet 123 of the hydrogen oxygen generating unit 12 via the gas outlet 114 of the liquid level switch tank 11, and the secondary gas containing water vapor (ie, containing water) is discharged. The oxygen of the gas is directly discharged to the atmosphere or for other applications.

該氣體即時製造機100利用該氫氣氧氣產生單元12所產生的該氫氣與該水氣(即含有水氣的氫氣)係由該氫氣氧氣產生單元12的該主要氣水出口122輸出。該主要氣水出口122可直接連接所述氣體出口21、22,由所述氣體出口21、22對外排放該氫氣氧氣產生單元12所製造含有水氣的氫氣(目標氣體),供該目標氣體通過該氣體出口21、22與該接頭組件200而對外排放。在包含氣水分離單元13的實施例中,氣水分離單元13連接在該氫氣氧氣產生單元12的該主要氣水出口122與氣體出口21、22之間,容後說明。The gas instant manufacturing machine 100 uses the hydrogen gas generated by the hydrogen oxygen generating unit 12 and the water gas (i.e., hydrogen containing water gas) to be output from the main gas water outlet 122 of the hydrogen oxygen generating unit 12. The main gas water outlet 122 can be directly connected to the gas outlets 21 and 22, and the hydrogen gas (target gas) produced by the hydrogen oxygen generating unit 12 is discharged from the gas outlets 21 and 22 for the target gas to pass. The gas outlets 21, 22 and the joint assembly 200 are discharged to the outside. In the embodiment including the gas-water separation unit 13, the gas-water separation unit 13 is connected between the main gas-water outlet 122 and the gas outlets 21, 22 of the hydrogen-oxygen generation unit 12, as will be described later.

由於該氫氣氧氣產生單元12係為密閉的裝置,因此,在設計上係透過開設該入水口121,使得該液位開關水槽11內的原料水能夠經由該氫氣氧氣產生單元12的該入水口121流入該氫氣氧氣產生單元12內。因此,該氫氣氧氣產生單元12內多餘的該原料水及產生的其它氣體,經由該氫氣氧氣產生單元12的該次要氣水出口123與該液位開關水槽11的該氣水入口113,流入該液位開關水槽11內。Since the hydrogen-oxygen generating unit 12 is a closed device, the water inlet 121 is designed to allow the raw material water in the liquid level switch water tank 11 to pass through the water inlet 121 of the hydrogen-oxygen generating unit 12. It flows into the hydrogen oxygen generating unit 12. Therefore, the excess raw material water and other generated gases in the hydrogen-oxygen generating unit 12 flow through the secondary gas-water outlet 123 of the hydrogen-oxygen generating unit 12 and the gas-water inlet 113 of the liquid level switch water tank 11 The liquid level switch is inside the water tank 11.

如前所述,於包含氣水分離單元13的實施例中,該氣水分離單元13可選用市面上或目前現有的氣體與液體分離模組,請參考圖2與圖5,其具有一氣水入口131、一出氣口132與一出水口133。該氣水分離單元13的該氣水入口131連接該氫氣氧氣產生單元12的該主要氣水出口122,以接收該氫氣氧氣產生單元12所產生的該氫氣與該水氣(即含有水氣的氫氣),並且該氣水分離單元13係分離該氫氣與該水氣。該第二電磁閥18連接在該氣水分離單元13的該出水口133與該氫氣氧氣產生單元12的入水口121之間,使該氣水分離單元13的該出水口133透過該第二電磁閥18連接該液位開關水槽11與該氫氣氧氣產生單元12的入水口121。As described above, in the embodiment including the gas-water separation unit 13, the gas-water separation unit 13 can be selected from commercially available gas or liquid separation modules. Please refer to FIG. 2 and FIG. 5, which has a gas water. The inlet 131, an air outlet 132 and a water outlet 133. The gas-water inlet 131 of the gas-water separation unit 13 is connected to the main gas-water outlet 122 of the hydrogen-oxygen generating unit 12 to receive the hydrogen gas generated by the hydrogen-oxygen generating unit 12 and the moisture (ie, containing moisture) Hydrogen), and the gas-water separation unit 13 separates the hydrogen from the moisture. The second electromagnetic valve 18 is connected between the water outlet 133 of the gas-water separation unit 13 and the water inlet 121 of the hydrogen-oxygen generating unit 12, so that the water outlet 133 of the gas-water separation unit 13 transmits the second electromagnetic The valve 18 is connected to the liquid level switch water tank 11 and the water inlet 121 of the hydrogen oxygen generating unit 12.

該氣水分離單元13所分離出的該液態水係由該氣水分離單元13的該出水口133排出,透過打開該第二電磁閥18並透過軟管或連接管引導後,經由該氫氣氧氣產生單元12的該入水口121流入該氫氣氧氣產生單元12中,藉此,生成的液態水可收回再利用。其中,該氣水分離單元13所分離出的該液態水係由該氣水分離單元13的該出水口133排出,亦可透過市售卻水器將該氣水分離單元13內所分離出的液態水直接導流至該蓄水槽63內,藉此,生成的液態水可收回再利用。The liquid water separated by the gas-water separation unit 13 is discharged from the water outlet 133 of the gas-water separation unit 13, and is opened by the second electromagnetic valve 18 and guided through a hose or a connecting pipe. The water inlet 121 of the generating unit 12 flows into the hydrogen oxygen generating unit 12, whereby the generated liquid water can be recovered and reused. The liquid water separated by the gas-water separation unit 13 is discharged from the water outlet 133 of the gas-water separation unit 13, and may be separated from the gas-water separation unit 13 by a commercially available water heater. The liquid water is directly diverted into the water storage tank 63, whereby the generated liquid water can be recovered and reused.

在本實施例中,該氣水分離單元13的該出氣口132係連接該第一氣體出口21與該第二氣體出口22。具體來說,透過使用一對二的分接頭,即一輸入端、兩輸出端的分接頭,其中,所述輸入端透過軟管或連接管連接該出氣口132,所述兩輸出端透過軟管或連接管分別連接至該第一氣體出口21與該第二氣體出口22,如此,由該出氣口132所輸出純氫氣,可透過所述一對二的分接頭及配合的軟管或連接管,輸出至該第一氣體出口21與該第二氣體出口22。此外,本創作亦可透過使用一對三或一對多的分接頭,即一輸入端、三(多)輸出端的分接頭,配合三個或多個氣體出口的數量,使本創作可同時提供多個氣體輸出口供填充液體之用。In the present embodiment, the air outlet 132 of the gas-water separation unit 13 is connected to the first gas outlet 21 and the second gas outlet 22. Specifically, by using a pair of taps, that is, an input end and a tap of the two output ends, wherein the input end is connected to the air outlet 132 through a hose or a connecting tube, and the two output ends are through the hose. Or a connecting pipe is respectively connected to the first gas outlet 21 and the second gas outlet 22, so that pure hydrogen gas is outputted from the gas outlet 132, and the pair of two taps and the matched hose or connecting pipe can be transmitted through And output to the first gas outlet 21 and the second gas outlet 22. In addition, this creation can also be provided by using a pair of three or one-to-many taps, that is, a tap of one input and three (multiple) outputs, in conjunction with the number of three or more gas outlets. A plurality of gas outlets are used to fill the liquid.

以本實施例來說,該氣水分離單元13的該出氣口132係透過一對二的分接頭以及軟管或連接管分別連接該第一氣體出口21與該第二氣體出口22。因此,利用該氣水分離單元13所分離的純氫氣係由該氣水分離單元13的該出氣口132輸出,經由一對二的分接頭以及軟管或連接管引導後,由該第一氣體出口21與該第二氣體出口22排出。換言之,當使用者將裝有液體的該(等)密閉式容器30接到該第一氣體出口21和/或該第二氣體出口22,使得該氣體即時製造機100可提供對該等密閉式容器30內的液體填充純氫氣。In this embodiment, the gas outlet 132 of the gas-water separation unit 13 is connected to the first gas outlet 21 and the second gas outlet 22 through a pair of two taps and a hose or a connecting pipe. Therefore, the pure hydrogen gas separated by the gas-water separation unit 13 is output from the gas outlet 132 of the gas-water separation unit 13, and is guided by a pair of two taps and a hose or a connecting pipe, and the first gas is used. The outlet 21 and the second gas outlet 22 are discharged. In other words, when the user connects the (closed) closed container 30 containing the liquid to the first gas outlet 21 and/or the second gas outlet 22, the gas instant manufacturing machine 100 can provide the closed type The liquid in vessel 30 is filled with pure hydrogen.

由於該氫氣氧氣產生單元12係透過在其內部設置電極片作為氫氣與氧氣生成與收集的設備,因此,只要將生成氫氣的電極片靠近該主要氣水出口122,則該主要氣水出口122所輸出的氣體(即主要氣體)即為氫氣。反之,只要將生成氧氣的電極片靠近該主要氣水出口122,則該主要氣水出口122所輸出的氣體(即主要氣體)即為氧氣。因此,在實際的應用上,若要以氫氣為主要氣體使用,則生成氫氣的電極片靠近該主要氣水出口122;同樣地,若要以氧氣為主要氣體使用,則生成氧氣的電極片靠近該主要氣水出口122。因此,對於主要氣體為氫氣或氧氣的差別,主要在於生成氣體的電極片靠近該主要氣水出口122為何者。Since the hydrogen-oxygen generating unit 12 transmits an electrode sheet as an apparatus for generating and collecting hydrogen and oxygen therein, the main gas-water outlet 122 is provided as long as the electrode sheet for generating hydrogen gas is brought close to the main gas-water outlet 122. The gas that is output (ie, the main gas) is hydrogen. On the other hand, as long as the electrode sheet for generating oxygen is brought close to the main gas water outlet 122, the gas (i.e., the main gas) output from the main gas water outlet 122 is oxygen. Therefore, in practical applications, if hydrogen gas is used as the main gas, the electrode sheet for generating hydrogen gas is close to the main gas water outlet 122; similarly, if oxygen is used as the main gas, the electrode sheet for generating oxygen is close to The main gas water outlet 122. Therefore, the difference in the main gas is hydrogen or oxygen mainly depends on the electrode sheet on which the gas is generated is close to the main gas water outlet 122.

因此,本創作的另一較佳實施例係以主要氣體為氧氣,而次要氣體即為氫氣為例的說明,可參見前述說明,在此不再贅述。簡言之,該氫氣氧氣產生單元12所產生的主要氣體(即氧氣)係透過該氫氣氧氣產生單元12主要氣水出口122輸出至該氣水分離單元13。此外,該氫氣氧氣產生單元12所產生含有水氣的次要氣體(即氫氣)係由該氫氣氧氣產生單元12的該次要氣水出口123經由該液位開關水槽11的該出氣口114對外排出,並且排出含有水氣的次要氣體(即含有水氣的氫氣)直接排出至大氣中或供作其它應用。Therefore, another preferred embodiment of the present invention is an example in which the main gas is oxygen and the secondary gas is hydrogen. For the description of the foregoing, reference will be made to the above description. In short, the main gas (i.e., oxygen) generated by the hydrogen-oxygen generating unit 12 is output to the gas-water separating unit 13 through the main gas-water outlet 122 of the hydrogen-oxygen generating unit 12. In addition, the secondary gas (ie, hydrogen) containing the moisture generated by the hydrogen-oxygen generating unit 12 is externally discharged from the secondary gas-water outlet 123 of the hydrogen-oxygen generating unit 12 via the gas outlet 114 of the liquid level switch tank 11. The secondary gas containing water vapor (ie, hydrogen containing moisture) is discharged and discharged directly to the atmosphere or for other applications.

請參見圖3與圖5所示,於此實施例中,壓力控制裝置包含一壓力感測器14、一壓力開關15以及一洩壓閥16。Referring to FIG. 3 and FIG. 5, in this embodiment, the pressure control device includes a pressure sensor 14, a pressure switch 15, and a pressure relief valve 16.

該壓力感測器14透過軟管或連接管連接該氣水分離單元13的該出氣口132,因此,該壓力感測器14可感測出由該氣水分離單元13的該出氣口132所產生的氫氣的氣體壓力值,並將壓力值以燈號顯示的方式表示於如圖1所示的該機體10上的顯示模組50,容後說明。The pressure sensor 14 is connected to the air outlet 132 of the gas-water separation unit 13 through a hose or a connecting pipe. Therefore, the pressure sensor 14 can sense the air outlet 132 of the gas-water separation unit 13 The gas pressure value of the generated hydrogen gas is displayed on the display module 50 of the body 10 as shown in FIG. 1 by the light source display, which will be described later.

具體而言,當使用者開啟該氣體即時製造機100的總電源時,例如透過按壓電源按鈕,如圖1所示的一電源按鈕40,係啟動該氫氣氧氣產生單元12的一電源開關,以致能該氫氣氧氣產生單元12,對該原料水進行電解以生成氫氣或氧氣。以氫氣的氣體壓力感測為例,氫氣在產生的過程中,由於氫氣(莫耳)濃度增加,因此,該壓力感測器14所感測到的氣體壓力值將逐漸上升。換言之,本創作該氣體即時製造機100係透過氫氣或氧氣在生成過程所增加的氣體壓力,將氫氣或氧氣填充至密閉式容器30的液體內,或引導至所需的人體或動物體內作供應呼吸或輔助呼吸之用。Specifically, when the user turns on the total power of the gas instant manufacturing machine 100, for example, by pressing a power button, a power button 40 as shown in FIG. 1 activates a power switch of the hydrogen oxygen generating unit 12, so that The hydrogen oxygen generating unit 12 can perform electrolysis on the raw material water to generate hydrogen or oxygen. Taking the gas pressure sensing of hydrogen as an example, in the process of generating hydrogen, the gas pressure value sensed by the pressure sensor 14 will gradually increase due to the increase of the hydrogen (mole) concentration. In other words, the gas instant manufacturing machine 100 is filled with hydrogen or oxygen into the liquid of the closed container 30 through the increased gas pressure of hydrogen or oxygen during the formation process, or guided to the desired human or animal body for supply. Breathing or assisting breathing.

在本實施例中,係進一步將該壓力感測器14所感測到的氣體壓力值轉換為電氣信號輸出。亦即,該壓力感測器14連接該顯示模組50,其中該顯示模組50係設置於該機體10上,如圖1所示。In this embodiment, the gas pressure value sensed by the pressure sensor 14 is further converted into an electrical signal output. That is, the pressure sensor 14 is connected to the display module 50, wherein the display module 50 is disposed on the body 10, as shown in FIG.

以圖1為例所示的該顯示模組50具有對應顯示不同氣體壓力範圍數個(6個)顯示單元,其中各該顯示單元係可為發光二極體(light-emitting diode, LED)。此外,該顯示模組50可透過該等顯示單元的亮滅方式和/或不同顏色的燈號顯示方式,又或者亮燈對應指示壓力飽和比例,表現出目前氣體即時製造機100的氫氣壓力值,讓使用者清楚了解當下該裝置內部氣體壓力值。其中,6個顯示單元可分別為兩個為綠光發光二極體、兩個為黃光發光二極體以及兩個為紅光發光二極體,當氫氣壓力值逐漸增加時,分別由綠光顯示逐漸改變為黃光、紅光顯示,又或由綠光顯示再加入黃光、紅光顯示,又或以燈號數量來顯示壓力值的高低。The display module 50 shown in FIG. 1 has a plurality of (6) display units corresponding to different gas pressure ranges, wherein each of the display units can be a light-emitting diode (LED). In addition, the display module 50 can display the hydrogen pressure value of the current gas instant manufacturing machine 100 through the light-off mode of the display unit and/or the light color display mode of different colors, or the lighting corresponding to the indicated pressure saturation ratio. , to let the user clearly understand the current gas pressure value of the device. Among them, the six display units can be two green light emitting diodes, two yellow light emitting diodes and two red light emitting diodes. When the hydrogen pressure value is gradually increased, respectively, by green The light display is gradually changed to yellow light and red light display, or it is displayed by green light and then added with yellow light and red light display, or the pressure value is displayed by the number of light signals.

舉例來說,假設該氣體即時製造機100所輸出的額定飽和氣體壓力為5帕(Pascal, Pa)。當該氣體即時製造機100的氫氣壓力值為0~1帕之間,則為第一個綠光顯示單元發亮。當氫氣壓力值為1~2帕之間,則為第二個綠光顯示單元發亮,或第一個綠光顯示單元與第二個綠光顯示單元同時發亮。當氫氣壓力值為2~3帕之間,則為第一個黃光顯示單元發亮,或第一個綠光顯示單元、第二個綠光顯示單元以及第一個黃光顯示單元同時發亮。依此類推,當第一個紅光顯示單元發亮則表示氫氣壓力值為4~5帕之間,再者,當第二個紅光顯示單元發亮則表示氫氣壓力值達到額定飽和氣體壓力(5帕)。惟上述對應輸出氣體壓力的表現方式不以上述實施例為限制,只要能達成用以顯示不同氣體壓力範圍的方式皆應包含於本創作之範疇中。For example, assume that the gas instant manufacturing machine 100 outputs a nominal saturated gas pressure of 5 Pa (Pascal, Pa). When the hydrogen pressure value of the gas instant manufacturing machine 100 is between 0 and 1 Pa, the first green light display unit is illuminated. When the hydrogen pressure value is between 1 and 2 Pa, the second green light display unit is illuminated, or the first green light display unit and the second green light display unit are simultaneously illuminated. When the hydrogen pressure value is between 2 and 3 Pa, the first yellow light display unit is illuminated, or the first green light display unit, the second green light display unit, and the first yellow light display unit are simultaneously emitted. bright. And so on, when the first red light display unit is lit, it means that the hydrogen pressure value is between 4 and 5 Pa. Further, when the second red light display unit is lit, it indicates that the hydrogen pressure value reaches the rated saturated gas pressure. (5 Pa). However, the manner in which the above-mentioned corresponding output gas pressure is expressed is not limited by the above embodiments, and any manner for displaying different gas pressure ranges should be included in the scope of the present invention.

該壓力開關15透過軟管或連接管連接該氣水分離單元13的該出氣口132,因此,該壓力開關15可感知出由該氣水分離單元13的該出氣口132所產生的氫氣的氣體壓力值。在本實施例中,該壓力開關15用以作為當該氣體即時製造機100所產生的氫氣的氣體壓力值達到額定飽和氣體壓力(5帕)時,該壓力開關15則輸出一控制信號,以關閉該氫氣氧氣產生單元12的該電源開關,以禁能該氫氣氧氣產生單元12而停止對該原料水進行電解而中斷氫氣與氧氣的持續產生。The pressure switch 15 is connected to the air outlet 132 of the gas-water separation unit 13 through a hose or a connecting pipe. Therefore, the pressure switch 15 can sense the gas of hydrogen generated by the gas outlet 132 of the gas-water separation unit 13. Pressure value. In the present embodiment, the pressure switch 15 is used to output a control signal when the gas pressure value of the hydrogen gas generated by the gas instant manufacturing machine 100 reaches the rated saturated gas pressure (5 Pa). The power switch of the hydrogen-oxygen generating unit 12 is turned off to disable the hydrogen-oxygen generating unit 12 to stop electrolysis of the raw material water to interrupt the continuous generation of hydrogen and oxygen.

該洩壓閥16透過軟管或連接管連接該氣水分離單元13的該出氣口132。在本實施例中,該洩壓閥16用以作為當該氣體即時製造機100所產生的氫氣的氣體壓力值超過該額定飽和氣體壓力(5帕)時,且達到一臨界上限氣體壓力,例如5.5帕,該臨界上限氣體壓力足以開啟該洩壓閥16,以提供強制洩壓操作,使該氣體即時製造機100的氫氣壓力值由臨界上限氣體壓力下降(減壓)至安全的壓力值範圍,以避免過壓造成填充該密閉式容器30的液體過程中或者非填充過程中的該氣體即時製造機100內部發生氣炸、氣爆的意外發生。惟上述列舉之氣體壓力數值僅為說明之用,並非用以限制本創作。The pressure relief valve 16 is connected to the air outlet 132 of the gas-water separation unit 13 through a hose or a connecting pipe. In the present embodiment, the pressure relief valve 16 is used as a gas pressure value of hydrogen generated by the gas instant manufacturing machine 100 exceeding the rated saturated gas pressure (5 Pa), and reaches a critical upper limit gas pressure, for example, 5.5 kPa, the critical upper limit gas pressure is sufficient to open the pressure relief valve 16 to provide a forced pressure relief operation to cause the hydrogen pressure value of the gas instant manufacturing machine 100 to drop (critical pressure) from the critical upper limit gas pressure to a safe pressure value range In order to avoid the occurrence of over-pressure, the accidental occurrence of gas explosion and gas explosion inside the gas manufacturing machine 100 during the filling of the liquid of the closed container 30 or during the non-filling process. However, the above listed gas pressure values are for illustrative purposes only and are not intended to limit the creation.

如圖4與圖5所示,此實施例包含第一電磁閥17、第二電磁閥18與一第三電磁閥19,如前所述,該第一電磁閥17用以控制該蓄水槽63內的原料水是否流進該液位開關水槽11以補給原料水的說明,已於前述相關段落記載,因此在此不再贅述。該第二電磁閥18透過軟管或連接管連接該氣水分離單元13的該出水口133、該液位開關水槽11的該出水口112以及該氫氣氧氣產生單元12的該入水口121之間,以控制經由該氣水分離單元13所分離出的該水氣凝結成液態水,透過該氫氣氧氣產生單元12的該入水口121流回至該氫氣氧氣產生單元12,或透過該液位開關水槽11的該氣水入口113流回該液位開關水槽11內。當該氣水分離單元13內的液態水達到一設定水位時,則開啟該第二電磁閥18,使得經由該氣水分離單元13所分離出的該水氣凝結而成的液態水可回流至該氫氣氧氣產生單元12或該液位開關水槽11內再利用。反之,當該第二電磁閥18關閉時,經由該氣水分離單元13所分離出的該水氣凝結而成的液態水則被該第二電磁閥18阻擋,而無法流至該氫氣氧氣產生單元12或該液位開關水槽11內。As shown in FIG. 4 and FIG. 5, this embodiment includes a first solenoid valve 17, a second solenoid valve 18 and a third solenoid valve 19 for controlling the water reservoir 63 as previously described. The description of whether or not the raw material water flows into the liquid level switch water tank 11 to replenish the raw material water has been described in the above related paragraphs, and therefore will not be described herein. The second solenoid valve 18 is connected between the water outlet 133 of the gas-water separation unit 13 through the hose or the connecting pipe, the water outlet 112 of the liquid level switch water tank 11, and the water inlet 121 of the hydrogen-oxygen generating unit 12. The water vapor separated by the gas-water separation unit 13 is condensed into liquid water, and the water inlet 121 of the hydrogen-oxygen generating unit 12 flows back to the hydrogen-oxygen generating unit 12 or through the liquid level switch. The gas water inlet 113 of the water tank 11 flows back into the liquid level switch water tank 11. When the liquid water in the gas-water separation unit 13 reaches a set water level, the second electromagnetic valve 18 is opened, so that the liquid water condensed by the moisture separated by the gas-water separation unit 13 can be returned to the liquid water. The hydrogen-oxygen generating unit 12 or the liquid level switch tank 11 is reused. On the other hand, when the second solenoid valve 18 is closed, the liquid water condensed by the moisture separated by the gas-water separation unit 13 is blocked by the second solenoid valve 18, and cannot flow to the hydrogen gas generation. The unit 12 or the liquid level switch is in the water tank 11.

該第三電磁閥19透過軟管或連接管連接該氣水分離單元13的該出氣口132與該第一氣體出口21、該第二氣體出口22之間,該第三電磁閥19與常閉型的該第二電磁閥18相反,亦即該第三電磁閥19為一常開型的電磁閥。該第三電磁閥19與常閉型的該第二電磁閥18同時接收來自該氣水分離單元13內部所提供的液位開關電訊號。當常閉型的該第二電磁閥18打開閥門時,常開型的該第三電磁閥19則關閉閥門,以防止常閉型的該第二電磁閥18閥門開啟時而該密閉式容器30為正壓狀態時,造成該密閉式容器30內的液體或氣體由軟管或連接管逆流(倒灌)至該氣水分離單元13中,藉以確保該儀器內部管路及配件不受該密閉式容器30內的液體或氣體汙染。在本創作中,該第二電磁閥18與該第三電磁閥19為互補的開啟與關閉關係,亦即,當該第二電磁閥18為開啟時,該第三電磁閥19為關閉,反之,當該第二電磁閥18為關閉時,該第三電磁閥19為開啟,藉此,可同時達到該氣水分離單元13內的滿水位排水外,亦能防止因管內負壓的產生而造成該密閉式容器30內的液態水或氣體經由該第一氣體出口21與該第二氣體出口22逆流(倒灌)入該氣水分離單元13中,亦能防止當該密閉式容器30內的壓力為負壓時且第二電磁閥18開啟時將管內所凝結的液態水抽出。The third electromagnetic valve 19 is connected between the air outlet 132 of the gas-water separation unit 13 and the first gas outlet 21 and the second gas outlet 22 through a hose or a connecting pipe. The third electromagnetic valve 19 is normally closed. The second solenoid valve 18 of the type is reversed, that is, the third solenoid valve 19 is a normally open solenoid valve. The third solenoid valve 19 receives the liquid level switch electrical signal supplied from the inside of the gas-water separation unit 13 simultaneously with the normally closed second electromagnetic valve 18. When the normally closed type of the second solenoid valve 18 opens the valve, the normally open type of the third solenoid valve 19 closes the valve to prevent the normally closed type of the second solenoid valve 18 from opening when the closed container 30 is closed. When it is in a positive pressure state, the liquid or gas in the closed container 30 is caused to flow back (backfill) to the gas-water separation unit 13 by a hose or a connecting pipe, thereby ensuring that the internal piping and fittings of the instrument are not protected by the closed type. The liquid or gas within the container 30 is contaminated. In the present creation, the second solenoid valve 18 and the third solenoid valve 19 are in a complementary open and closed relationship, that is, when the second solenoid valve 18 is open, the third solenoid valve 19 is closed, and vice versa. When the second electromagnetic valve 18 is closed, the third electromagnetic valve 19 is opened, thereby simultaneously reaching the full water level drainage in the gas-water separation unit 13, and preventing the negative pressure from being generated in the tube. The liquid water or gas in the sealed container 30 is caused to flow back into the gas-water separation unit 13 via the first gas outlet 21 and the second gas outlet 22, and can also be prevented from being inside the sealed container 30. When the pressure is negative and the second solenoid valve 18 is opened, the liquid water condensed in the tube is withdrawn.

請參見圖6與圖1所示,其中圖6係為本創作即時製造、即時加壓的氣液產生系統之一實施例使用狀態示意圖。前述該液位開關水槽11、該氫氣氧氣產生單元12、該氣水分離單元13、該壓力感測器14、該壓力開關15、該洩壓閥16、該第一電磁閥17、該第二電磁閥18以及該第三電磁閥19係可裝設於該機體10下半部的空間中,然不以此位置配置為限。Please refer to FIG. 6 and FIG. 1 , wherein FIG. 6 is a schematic diagram of a state of use of an embodiment of a gas-liquid generating system for instant manufacturing and instant pressurization. The liquid level switch water tank 11, the hydrogen oxygen generating unit 12, the gas water separating unit 13, the pressure sensor 14, the pressure switch 15, the pressure relief valve 16, the first electromagnetic valve 17, the second The solenoid valve 18 and the third solenoid valve 19 can be installed in the space of the lower half of the body 10, but are not limited to this positional arrangement.

此外,為使操作方便且更有效率,使用者可將大量的水倒入該進水槽61內,使得透過該過濾杯62過濾該原料水後,慢慢地滴(流)入該蓄水槽63的下半部空間,藉此,可大量地將過濾後的原料水容置於該蓄水槽63內,以供該即時製造、即時加壓的氣液產生系統長時間使用。Further, in order to make the operation convenient and more efficient, the user can pour a large amount of water into the water inlet 61 so that the raw material water is filtered through the filter cup 62, and then slowly dripped (flow) into the water storage tank 63. The lower half space allows the filtered raw material water volume to be placed in the water storage tank 63 in large quantities for the long-term use of the instant-made, immediately pressurized gas-liquid generating system.

在本實施例中,可透過在該液位開關水槽11設置的該液位開關,即一水位檢測器,以檢測其水位的高度,亦即,當由該蓄水槽63流入至該液位開關水槽11的水位到達一上限水位時,則可控制該蓄水槽63不再對該液位開關水槽11進水。又或,當該液位開關水槽11的水位到達一下限水位時,則可控制該蓄水槽63對該液位開關水槽11進水。In this embodiment, the liquid level switch provided in the liquid level switch water tank 11 , that is, a water level detector, can be used to detect the height of the water level, that is, when flowing from the water storage tank 63 to the liquid level switch. When the water level of the water tank 11 reaches an upper limit water level, the water storage tank 63 can be controlled to no longer supply water to the liquid level switch water tank 11. Alternatively, when the water level of the liquid level switch water tank 11 reaches a lower limit water level, the water storage tank 63 can be controlled to supply water to the liquid level switch water tank 11.

再者,在該過濾杯62中可設置一過濾設備,以過濾從該進水槽61流入該過濾杯62的細微雜質,以確保從該過濾杯62流入該液位開關水槽11的原料水是純淨沒有雜質的,藉此防止水中的雜質阻塞於該氫氣氧氣產生單元12上,以提高該氫氣氧氣產生單元12的使用壽命。Furthermore, a filtering device may be disposed in the filter cup 62 to filter fine impurities flowing from the water inlet 61 into the filter cup 62 to ensure that the raw water flowing into the liquid level switch tank 11 from the filter cup 62 is pure. There is no impurity, thereby preventing impurities in the water from being clogged on the hydrogen-oxygen generating unit 12 to increase the service life of the hydrogen-oxygen generating unit 12.

再者,本創作該即時製造、即時加壓的氣液產生系統進一步提供濾菌或殺菌機制,請參考圖6,所述濾菌或殺菌機制可由一殺菌燈71,例如一紫外線殺菌燈或一除菌過濾器72,例如一過濾綿所實現。所述殺菌燈71或除菌過濾器72設置於該至少一氣體出口21、22的鄰近處,例如可裝設於承載件內的空間,以照射該至少一氣體出口21、22所排出的氫氣或氧氣,進而滅除經軟管或連接管由該等氣體出口21、22所排出的氫氣或氧氣中的細菌,使得填充進該等密閉式容器30內的氫氣或氧氣為乾淨且無菌狀態。所述除菌過濾器72設置於該至少一氣體出口21、22的前端處,例如裝設於承載件中的軟管或連接管內的空間,以過濾該至少一氣體出口21、22所排出的氫氣或氧氣,進而濾除經軟管或連接管由該等氣體出口21、22所排出的氫氣或氧氣中的細菌,使得填充進該等密閉式容器30內的氫氣或氧氣為乾淨且無菌狀態。Furthermore, the instant manufacturing and instant pressurized gas-liquid generating system further provides a filter or sterilization mechanism. Referring to FIG. 6, the bacteria filter or sterilization mechanism may be a germicidal lamp 71, such as an ultraviolet germicidal lamp or a A sterilizing filter 72, such as a filter cotton, is implemented. The germicidal lamp 71 or the sterilizing filter 72 is disposed adjacent to the at least one gas outlet 21, 22, for example, a space that can be installed in the carrier to illuminate the hydrogen discharged from the at least one gas outlet 21, 22. Or oxygen, thereby eliminating bacteria in the hydrogen or oxygen discharged from the gas outlets 21, 22 through the hose or connecting pipe, so that the hydrogen or oxygen filled into the closed containers 30 is clean and sterilized. The sterilizing filter 72 is disposed at a front end of the at least one gas outlet 21, 22, for example, a hose installed in the carrier or a space in the connecting pipe to filter the at least one gas outlet 21, 22 to discharge Hydrogen or oxygen, thereby filtering out bacteria in the hydrogen or oxygen discharged from the gas outlets 21, 22 through the hose or connecting pipe, so that the hydrogen or oxygen filled into the closed containers 30 is clean and sterile status.

本創作氣體即時製造機100除了應用在密閉式容器30,還可應用在開放式容器,或者該氣體出口21、22可通過接頭組件200而連接一氣管,該氣管具有多數孔洞並浸入所述密閉式容器30或開放式容器的液體中,本創作氣體即時製造機100對外輸出目標氣體時,目標氣體是通過氣管的孔洞進入液體,藉由氣液混合方式溶入液體中。除此之外,請參見圖7所示,為本創作氣體即時製造機100的其他應用的使用狀態示意圖。相較於圖6所示的實施例作為氫氣、氧氣填充液體之用,圖7所示的實施例係作為供應呼吸或輔助呼吸之用。如圖7所示,所述氣體即時製造機100係通過接頭組件200對外連接一呼吸面罩80。具體而言,該機體10上部外側包含的該第一氣體出口21與該第二氣體出口22係透過接頭組件200與軟管連接呼吸面罩80,可將其產生的氫氣與氧氣引導至所需的人體或動物體內,作供應呼吸或輔助呼吸之用。是以,本創作氣體即時製造機100具備多用途的優點。The inventive gas instant manufacturing machine 100 can be applied to an open container in addition to the closed container 30, or the gas outlets 21, 22 can be connected to a gas pipe through the joint assembly 200, the gas pipe having a plurality of holes and immersed in the sealed container. In the liquid of the type container 30 or the open type container, when the target gas is produced by the creation of the target gas, the target gas enters the liquid through the hole of the gas pipe and is dissolved into the liquid by gas-liquid mixing. In addition, please refer to FIG. 7 , which is a schematic diagram of the use state of other applications of the creative gas instant manufacturing machine 100 . The embodiment shown in Fig. 7 is used for supplying or assisting breathing as compared with the embodiment shown in Fig. 6 as a hydrogen or oxygen filling liquid. As shown in FIG. 7, the gas instant manufacturing machine 100 is externally connected to a breathing mask 80 through a joint assembly 200. Specifically, the first gas outlet 21 and the second gas outlet 22 included on the outer side of the upper portion of the body 10 are connected to the breathing mask 80 through the joint assembly 200 and the hose, and the hydrogen and oxygen generated by the body 10 can be guided to a desired state. In the human body or animal body, for the purpose of supplying breathing or assisting breathing. Therefore, the present creation gas instant manufacturing machine 100 has the advantages of multiple uses.

綜上所述,本創作係具有以下之特徵與優點:In summary, this creation has the following features and advantages:

(1)、透過該氣體即時製造機100與待填充氣體的密閉式容器30分開設計,即該氫氣氧氣產生單元12不須浸入於密閉式容器30的液體,便可提供生成氫氣與氧氣,以提高氣體即時製造機100所產生氣體的純度、使用範圍、使用壽命以及便利性。(1) The gas instant manufacturing machine 100 is separately designed from the closed container 30 to be filled with gas, that is, the hydrogen oxygen generating unit 12 does not need to be immersed in the liquid of the closed container 30 to provide hydrogen and oxygen. The purity, use range, service life, and convenience of the gas generated by the gas instant manufacturing machine 100 are improved.

(2)、利用氣體壓力原理,將即時製造的氫氣或氧氣提供液體即時填充或呼吸輔助或呼吸供應之用。(2) Using the principle of gas pressure, the hydrogen or oxygen produced in real time can be used for liquid filling or breathing assistance or breathing supply.

(3)、可透過滑軌、彈簧元件、承載件的使用與設計,使得該兩氣體出口21、22可因應不同瓶身高度的該等密閉式容器30使用,並且該兩氣體出口21、22可通過接頭組件200而緊密連接密閉式容器30的氣體入口,藉此提高操作的便利化、多樣化與通用化,以及氣體填充的高效率化。(3) The use and design of the slide rails, the spring elements, and the carrier member enable the two gas outlets 21, 22 to be used in response to the closed containers 30 of different bottle heights, and the two gas outlets 21, 22 The gas inlet of the hermetic container 30 can be closely connected by the joint assembly 200, thereby facilitating the convenience, diversification, and generalization of the operation, and increasing the efficiency of gas filling.

(4)、透過壓力感測器14配合該顯示模組50的使用,可提供氣體壓力值的顯示,以方便使用者瞭解氣體填充的狀況。(4) The use of the pressure sensor 14 in conjunction with the display module 50 provides a display of the gas pressure value to facilitate the user to understand the condition of the gas filling.

(5)、透過該壓力開關15的使用,可提供額定飽和氣體壓力的安全機制,當生成的氣體壓力達到飽和壓力時,則控制關閉該氫氣氧氣產生單元12中止氣體的生產,如此,不僅可藉由中止該氫氣氧氣產生單元12的運作,以提高該氫氣氧氣產生單元12的使用壽命,再者即便使用者忘記將裝設於該兩氣體出口21、22的該密閉式容器30取下,由於氣體已中止生成,該密閉式容器30內的壓力不再持續施加,因此可確保使用者的操作安全。(5) Through the use of the pressure switch 15, a safety mechanism for rating the saturated gas pressure can be provided. When the generated gas pressure reaches the saturation pressure, the production of the stop gas by the hydrogen oxygen generating unit 12 is controlled to be closed, so that not only By suspending the operation of the hydrogen-oxygen generating unit 12, the service life of the hydrogen-oxygen generating unit 12 is increased, and even if the user forgets to remove the sealed container 30 installed at the two gas outlets 21, 22, Since the gas has been discontinued, the pressure in the closed container 30 is no longer applied continuously, thereby ensuring the safety of the user's operation.

(6)、透過該洩壓閥16的使用,可提供過飽和氣體壓力的安全機制,當生成的氣體壓力過飽和時,可透過該洩壓閥16緊急強制洩壓,以避免過壓造成填充該密閉式容器30的液體過程中或者非填充過程中的該氣體即時製造機100內部發生氣炸、氣爆的意外發生。(6) Through the use of the pressure relief valve 16, a safety mechanism for supersaturated gas pressure can be provided. When the generated gas pressure is supersaturated, the pressure relief valve 16 can be used to urgently force the pressure relief to prevent the overpressure from filling the airtight valve. In the liquid process of the type container 30 or during the non-filling process, an accident of gas explosion and gas explosion occurs inside the instant manufacturing machine 100.

(7)、透過殺菌燈71或除菌過濾器72,可滅除或濾除經軟管或連接管由該等氣體出口21、22所排出的氫氣或氧氣中的細菌,使得填充進該等密閉式容器30內或送至該呼吸面罩80的氫氣或氧氣為乾淨且無菌狀態。(7) through the germicidal lamp 71 or the sterilizing filter 72, the bacteria in the hydrogen or oxygen discharged from the gas outlets 21, 22 through the hose or the connecting pipe can be eliminated or filtered, so as to be filled into the Hydrogen or oxygen in the closed container 30 or delivered to the respiratory mask 80 is clean and sterile.

(8)、透過接頭組件200,當非為填充氣體使用時,可防止該氣體即時製造機100所持續產生的氣體向外排出散逸,並且在作為填充氣體使用時,可防止該密閉式容器30的氣體或液體經由該兩氣體出口21、22逆流(倒灌)至機器內部。(8) Through the joint assembly 200, when it is not used as a filling gas, the gas continuously generated by the gas instant manufacturing machine 100 can be prevented from being discharged outward, and when used as a filling gas, the sealed container 30 can be prevented. The gas or liquid is countercurrent (backflushed) to the interior of the machine via the two gas outlets 21, 22.

惟,以上所述,僅為本創作較佳具體實施例之詳細說明與圖式,惟本創作之特徵並不侷限於此,並非用以限制本創作,本創作之所有範圍應以下述之申請專利範圍為準,凡合於本創作申請專利範圍之精神與其類似變化之實施例,皆應包含於本創作之範疇中,任何熟悉該項技藝者在本創作之領域內,可輕易思及之變化或修飾皆可涵蓋在以下本案之專利範圍。However, the above description is only for the detailed description and the drawings of the preferred embodiments of the present invention, but the features of the present invention are not limited thereto, and are not intended to limit the creation. All the scope of the creation should be as follows. The scope of patents shall prevail, and all embodiments that incorporate the spirit of the patent application scope and similar changes shall be included in the scope of this creation. Anyone familiar with the art may easily think of it in the field of this creation. Variations or modifications may be covered by the patents in this case below.

100‧‧‧氣體即時製造機
10‧‧‧機體
11‧‧‧液位開關水槽
12‧‧‧氫氣氧氣產生單元
13‧‧‧氣水分離單元
14‧‧‧壓力感測器
15‧‧‧壓力開關
16‧‧‧洩壓閥
17‧‧‧第一電磁閥
18‧‧‧第二電磁閥
19‧‧‧第三電磁閥
111‧‧‧入水口
112‧‧‧出水口
113‧‧‧氣水入口
114‧‧‧出氣口
121‧‧‧入水口
122‧‧‧主要氣水出口
123‧‧‧次要氣水出口
131‧‧‧氣水入口
132‧‧‧出氣口
133‧‧‧出水口
200‧‧‧接頭組件
201‧‧‧公接頭
202‧‧‧母接頭
21‧‧‧第一氣體出口
22‧‧‧第二氣體出口
30‧‧‧密閉式容器
40‧‧‧電源按鈕
50‧‧‧顯示模組
61‧‧‧進水槽
62‧‧‧過濾杯
63‧‧‧蓄水槽
71‧‧‧殺菌燈
72‧‧‧除菌過濾器
80‧‧‧呼吸面罩
100‧‧‧ gas instant manufacturing machine
10‧‧‧ body
11‧‧‧Level switch sink
12‧‧‧ Hydrogen Oxygen Generation Unit
13‧‧‧ Gas-water separation unit
14‧‧‧ Pressure Sensor
15‧‧‧ Pressure switch
16‧‧‧Relief valve
17‧‧‧First solenoid valve
18‧‧‧Second solenoid valve
19‧‧‧ Third solenoid valve
111‧‧‧ water inlet
112‧‧‧Water outlet
113‧‧‧ gas water inlet
114‧‧‧ air outlet
121‧‧‧ water inlet
122‧‧‧Main gas and water outlet
123‧‧‧Secondary gas and water exports
131‧‧‧ gas water inlet
132‧‧‧ gas outlet
133‧‧‧Water outlet
200‧‧‧Connector assembly
201‧‧‧ male connector
202‧‧‧Female connector
21‧‧‧First gas export
22‧‧‧Second gas outlet
30‧‧‧ Closed container
40‧‧‧Power button
50‧‧‧ display module
61‧‧‧ into the sink
62‧‧‧Filter Cup
63‧‧‧Sink
71‧‧‧ germicidal lamp
72‧‧‧sterilization filter
80‧‧‧ breathing mask

圖1:為本創作即時製造、即時加壓的氣液產生系統之一實施例立體外觀示意圖; 圖2:為本創作氣體即時製造機的實施例之方塊示意圖(一); 圖3:為本創作氣體即時製造機的實施例之方塊示意圖(二); 圖4:為本創作氣體即時製造機的實施例之方塊示意圖(三); 圖5:為本創作氣體即時製造機的較佳實施例之內部構造平面示意圖; 圖6:為本創作即時製造、即時加壓的氣液產生系統之實施例使用狀態示意圖(一);及 圖7:為本創作即時製造、即時加壓的氣液產生系統之另一實施例使用狀態示意圖(二)。Figure 1 is a schematic perspective view of one embodiment of a gas-liquid generating system for instant manufacturing and instant pressurization of the present invention; Figure 2 is a block diagram (I) of an embodiment of a creative gas instant manufacturing machine; Figure 3: Block diagram (2) of an embodiment of a creative gas instant manufacturing machine; FIG. 4 is a block diagram (3) of an embodiment of a creative gas instant manufacturing machine; FIG. 5 is a preferred embodiment of the authoring gas instant manufacturing machine Schematic diagram of the internal structure of the internal structure; Figure 6: Schematic diagram of the state of use of the instant-made, instant pressurized gas-liquid generating system for the creation (1); and Figure 7: Instant-made, instant pressurized gas-liquid production for the creation Another embodiment of the system uses a state diagram (2).

100‧‧‧氣體即時製造機 100‧‧‧ gas instant manufacturing machine

10‧‧‧機體 10‧‧‧ body

11‧‧‧液位開關水槽 11‧‧‧Level switch sink

12‧‧‧氫氣氧氣產生單元 12‧‧‧ Hydrogen Oxygen Generation Unit

13‧‧‧氣水分離單元 13‧‧‧ Gas-water separation unit

14‧‧‧壓力感測器 14‧‧‧ Pressure Sensor

15‧‧‧壓力開關 15‧‧‧ Pressure switch

16‧‧‧洩壓閥 16‧‧‧Relief valve

17‧‧‧第一電磁閥 17‧‧‧First solenoid valve

18‧‧‧第二電磁閥 18‧‧‧Second solenoid valve

19‧‧‧第三電磁閥 19‧‧‧ Third solenoid valve

111‧‧‧入水口 111‧‧‧ water inlet

112‧‧‧出水口 112‧‧‧Water outlet

113‧‧‧氣水入口 113‧‧‧ gas water inlet

114‧‧‧出氣口 114‧‧‧ air outlet

121‧‧‧入水口 121‧‧‧ water inlet

122‧‧‧主要氣水出口 122‧‧‧Main gas and water outlets

123‧‧‧次要氣水出口 123‧‧‧Secondary gas and water exports

131‧‧‧氣水入口 131‧‧‧ gas water inlet

132‧‧‧出氣口 132‧‧‧ gas outlet

133‧‧‧出水口 133‧‧‧Water outlet

21‧‧‧第一氣體出口 21‧‧‧First gas export

22‧‧‧第二氣體出口 22‧‧‧Second gas outlet

30‧‧‧密閉式容器 30‧‧‧ Closed container

40‧‧‧電源按鈕 40‧‧‧Power button

50‧‧‧顯示模組 50‧‧‧ display module

61‧‧‧進水槽 61‧‧‧ into the sink

62‧‧‧過濾杯 62‧‧‧Filter Cup

63‧‧‧蓄水槽 63‧‧‧Sink

71‧‧‧殺菌燈 71‧‧‧ germicidal lamp

72‧‧‧除菌過濾器 72‧‧‧sterilization filter

Claims (10)

一種即時製造、即時加壓的氣液產生系統,包含: 一密閉式容器,具有一氣體入口,該密閉式容器內部供填充液體;以及 一氣體即時製造機,包含: 一機體; 一液位開關水槽,設置於該機體且供容置原料水,該液位開關水槽具有一出水口; 一氫氣氧氣產生單元,設置於該機體且具有一入水口與一主要氣水出口,該氫氣氧氣產生單元的入水口連接該液位開關水槽的出水口,該氫氣氧氣產生單元供即時製造一目標氣體,該主要氣水出口輸出該目標氣體; 一氣體出口,設置於該機體以供該目標氣體通過;以及 一接頭組件,設置於該機體且連接該氣體出口與該密閉式容器的氣體入口,使該氣體出口通過該接頭組件而連通該密閉式容器的氣體入口,供該目標氣體進入該密閉式容器內部,而被氣壓即時加壓以溶入該密閉式容器的液體。An instant-made, instant pressurized gas-liquid generating system comprising: a closed container having a gas inlet for filling a liquid inside; and a gas instant manufacturing machine comprising: a body; a level switch a water tank disposed on the body and accommodating the raw material water, the liquid level switch water tank has a water outlet; a hydrogen oxygen generating unit disposed on the body and having a water inlet and a main gas water outlet, the hydrogen oxygen generating unit The water inlet is connected to the water outlet of the liquid level switch water tank, and the hydrogen oxygen generating unit is configured to instantly manufacture a target gas, the main gas water outlet outputs the target gas; a gas outlet is disposed in the body for the target gas to pass; And a joint assembly disposed on the body and connecting the gas outlet and the gas inlet of the closed container, such that the gas outlet communicates with the gas inlet of the closed container through the joint assembly, and the target gas enters the closed container Internally, the liquid is immediately pressurized by the air pressure to dissolve into the closed container. 如請求項1所述即時製造、即時加壓的氣液產生系統,該接頭組件包含可拆組連接的一公接頭與一母接頭,該公接頭與該母接頭分別裝設於該氣體即時製造機的氣體出口與該密閉式容器的氣體入口。The instant manufacturing and instant pressurized gas-liquid generating system according to claim 1, wherein the joint assembly comprises a male connector and a female connector which are detachably connected, and the male connector and the female connector are respectively installed in the gas for immediate manufacture. The gas outlet of the machine is connected to the gas inlet of the closed vessel. 如請求項1或2所述即時製造、即時加壓的氣液產生系統,該氣體即時製造機進一步包含: 一氣水分離單元,該氣水分離單元設置於該機體且包含一氣水入口以及一出氣口,該氣水入口連接該氫氣氧氣產生單元的主要氣水出口,該出氣口係輸出該目標氣體;以及 一壓力控制裝置,包含: 一壓力感測器,連接該氣水分離單元的出氣口,該壓力感測器感測出由該氣水分離單元的出氣口所產生的氣體壓力值; 一壓力開關,連接該氣水分離單元的出氣口,當該氣體即時製造機所產生的氣體壓力值達到一額定飽和氣體壓力時,該壓力開關輸出一控制信號以關閉該氫氣氧氣產生單元的電源;以及 一洩壓閥,連接該氣水分離單元的出氣口。The instant production and immediate pressurization gas-liquid generating system according to claim 1 or 2, wherein the gas instant manufacturing machine further comprises: a gas-water separation unit disposed in the body and including a gas-water inlet and an outlet a gas port, the gas water inlet is connected to a main gas water outlet of the hydrogen oxygen generating unit, the gas outlet is for outputting the target gas; and a pressure control device comprises: a pressure sensor connected to the gas outlet of the gas water separation unit The pressure sensor senses a gas pressure value generated by an air outlet of the gas-water separation unit; a pressure switch is connected to an air outlet of the gas-water separation unit, and the gas pressure generated by the gas-making machine immediately When the value reaches a rated saturated gas pressure, the pressure switch outputs a control signal to turn off the power of the hydrogen oxygen generating unit; and a pressure relief valve connects the gas outlet of the gas water separation unit. 如請求項3所述即時製造、即時加壓的氣液產生系統,該氣體即時製造機進一步包含: 一第一電磁閥,連接在一蓄水槽與該液位開關水槽的一入水口之間; 一第二電磁閥,連接在該氣水分離單元的出水口與該氫氣氧氣產生單元的入水口之間;以及 一第三電磁閥,連接在該氣水分離單元的出氣口與該氣體出口之間。The instant manufacturing and instant pressurized gas-liquid generating system according to claim 3, the gas instant manufacturing machine further comprising: a first electromagnetic valve connected between a water storage tank and a water inlet of the liquid level switch water tank; a second electromagnetic valve connected between the water outlet of the gas-water separation unit and the water inlet of the hydrogen-oxygen generating unit; and a third electromagnetic valve connected to the gas outlet of the gas-water separation unit and the gas outlet between. 如請求項4所述即時製造、即時加壓的氣液產生系統,該氣體即時製造機的氣體出口處設有殺菌燈或除菌過濾器。A gas-liquid generating system for immediate manufacture and immediate pressurization as described in claim 4, wherein the gas outlet of the gas instant manufacturing machine is provided with a germicidal lamp or a sterilizing filter. 一種氣體即時製造機,包含: 一機體; 一液位開關水槽,設置於該機體且供容置原料水,該液位開關水槽具有一出水口; 一氫氣氧氣產生單元,設置於該機體且具有一入水口與一主要氣水出口,該氫氣氧氣產生單元的入水口連接該液位開關水槽的出水口,該氫氣氧氣產生單元供即時製造一目標氣體,該主要氣水出口輸出該目標氣體; 一氣體出口,設置於該機體以供該目標氣體通過;以及 一接頭組件,設置於該機體且連接該氣體出口,供該目標氣體通過該氣體出口與該接頭組件而對外排放。A gas instant manufacturing machine comprising: a body; a liquid level switch water tank disposed on the body and accommodating the raw material water, the liquid level switch water tank having a water outlet; a hydrogen oxygen generating unit disposed on the body and having a water inlet and a main gas water outlet, the water inlet of the hydrogen oxygen generating unit is connected to the water outlet of the liquid level switch water tank, the hydrogen oxygen generating unit is for immediately producing a target gas, and the main gas water outlet outputs the target gas; a gas outlet disposed in the body for the target gas to pass through; and a joint assembly disposed on the body and connected to the gas outlet for the target gas to be discharged to the outside through the gas outlet and the joint assembly. 如請求項6所述的氣體即時製造機,該接頭組件包含可拆組連接的一公接頭與一母接頭,該公接頭裝設於該氣體出口。The gas instant manufacturing machine of claim 6, wherein the joint assembly comprises a male connector and a female connector detachably connected, the male connector being mounted to the gas outlet. 如請求項6或7所述的氣體即時製造機,進一步包含: 一氣水分離單元,該氣水分離單元設置於該機體且包含一氣水入口以及一出氣口,該氣水入口連接該氫氣氧氣產生單元的主要氣水出口,該出氣口連接該氣體出口以輸出該目標氣體;以及 一壓力控制裝置,包含: 一壓力感測器,連接該氣水分離單元的出氣口,該壓力感測器感測出由該氣水分離單元的出氣口所產生的氣體壓力值; 一壓力開關,連接該氣水分離單元的出氣口,當該氣體即時製造機所產生的氣體壓力值達到一額定飽和氣體壓力時,該壓力開關輸出一控制信號以關閉該氫氣氧氣產生單元的電源;以及 一洩壓閥,連接該氣水分離單元的出氣口。The gas instant manufacturing machine according to claim 6 or 7, further comprising: a gas water separation unit disposed in the body and comprising a gas water inlet and an gas outlet, the gas water inlet connecting the hydrogen gas to generate a main gas water outlet of the unit, the gas outlet is connected to the gas outlet to output the target gas; and a pressure control device comprising: a pressure sensor connected to an air outlet of the gas water separation unit, the pressure sensor sense Detecting a gas pressure value generated by the gas outlet of the gas-water separation unit; a pressure switch connecting the gas outlet of the gas-water separation unit, when the gas pressure generated by the gas-making machine reaches a rated saturated gas pressure The pressure switch outputs a control signal to turn off the power of the hydrogen oxygen generating unit; and a pressure relief valve is connected to the air outlet of the gas water separation unit. 如請求項8所述的氣體即時製造機,進一步包含: 一第一電磁閥,連接在一蓄水槽與該液位開關水槽的一入水口之間; 一第二電磁閥,連接在該氣水分離單元的出水口與該氫氣氧氣產生單元的入水口之間;以及 一第三電磁閥,連接在該氣水分離單元的出氣口與該氣體出口之間。The gas instant manufacturing machine of claim 8, further comprising: a first electromagnetic valve connected between a water storage tank and a water inlet of the liquid level switch water tank; and a second electromagnetic valve connected to the gas water a water outlet of the separation unit and a water inlet of the hydrogen oxygen generating unit; and a third electromagnetic valve connected between the gas outlet of the gas water separation unit and the gas outlet. 如請求項9所述的氣體即時製造機,該氣體出口處設有殺菌燈或除菌過濾器。The gas instant manufacturing machine according to claim 9, wherein the gas outlet is provided with a germicidal lamp or a sterilization filter.
TW106202733U 2017-02-24 2017-02-24 Gas/liquid generation system featuring real-time production and real-time pressurization, and its gas production machine TWM545130U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115010235A (en) * 2022-06-07 2022-09-06 大连双迪创新科技研究院有限公司 Hydrogen liquid cup matched with external hydrogen source and using method thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115010235A (en) * 2022-06-07 2022-09-06 大连双迪创新科技研究院有限公司 Hydrogen liquid cup matched with external hydrogen source and using method thereof

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