201223882 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種高效率定壓溶氧水製造流程,特別 是指一種可以增加水中溶氧量的高效率定壓溶氧水製造流 程。 【先前技術】 按,水是構成人體最重要的成份’成年人每日至少 需攝取2公升之飲用水,市面上販售的各種飲用水機或 瓶裝水,有一些是以水中溶氧量為賣點,因為,人體的 各種成分,如血液、淋巴液以及身體的分泌物等都與水 有關,水約占成人體重的60-70% ;血液中含水量约 90%以上,我們進食後,吞咽、消化、運送養份,以至 =物,各個環節都需要水的幫助才能順利進 關節、水可防止眼球過乾、錢和胃液 多喝節體溫,通過排汗帶走_過高的献量 多辱水可降低賴、肋痛風發生 …篁’ 度,避免尿路結石。 還了从降低尿中的 包裝St:售t高都是以破壤瓶或強化塑膠 =取伸問題,傳統的高溶氧水製造 要在於氧 怕,為機器的小型化而更低,若用 常更二需要使用很大的氧氣鋼瓶c 二::傳統飲水過濾系統無法增加 在有不完善之處’尤其是氧氣的利用^常: 201223882 低,經創作人多年不斷的研究開發,終於研發出能有效 的利用氧氣,並可增加水中含氧量的高效率定壓溶氧水 製造流程。 【發明内容】 本發明之一目的即在於提供一種高效率定壓溶氧水製 造流程,係克服上述傳統製造流程的缺陷,增加水中溶氧 德和量,並使氧氣的利用率接近100%。 本發明之次一目的係在於提供一種高效率定壓溶氧水 製造流程,係可以增加水中溶氧量的高效率定壓溶氧水製造 流程。 可達成上述發明目的之高效率定壓溶氧水製造流程, 包括有:首先,利用一供水設備於一容器之入水口注入一 定比例之飲用水,使該容器内被注入一定比例之飲用水 耋;接著,再利用一供氧設備於該容器之入氣口注入一定 比例之純氧,使該容器内被注入一定比例之純氧量;之 後,再透過該供水設備由該容器之入水口不斷地注入飲用 水,以提高該容器内壓力,使該容器内之壓力到達預定壓 力值後’該供水設備即停止注入飲用水;接著,由該容器 之一出水口供應高溶氧水,並判斷該容器内氧氣量是否低 於S又疋篁?以及判斷§玄容器内壓力值是否低於設定值?若 氧氣量低於設定量,則再利用該供氧設備於該容器之入氣 口注入一定比例之純氧,藉以保持該容器内之氧氣量維持 於設定量之範圍内;若壓力值低於設定值,則再透過該供 水設備由該容器之入水口注入飲用水,以提高該容器内壓 201223882 力,使該容器内之壓力值能維持於設定值之範圍内;如 此,藉由不斷地維持該容器内之氧氣量及水壓力值,使高 屯氧可洛入飲用水中,進而由該容器之出水口可不斷 地供應出高溶氧水。 °月參閱以下有關本發明一較佳實施例之詳細說明及其 附圖,將可進一步瞭解本發明之技術内容及其目的功效: 【實施方式】 本發明所提供之高效率定壓溶氧水製造流程,請參閱 第1、2圖所示,該製造流程主要包括有下列步驟: (101) 首先,利用一供水設備(圖中未示)於一容器 10 (例如:體積為10公升之容器)之入水口丨丨注入一定比 J之飲用水,使該容器10内被注入一定比例之飲用水量; (102) 利用一供氧設備(圖中未示)於該容器1〇之入 氣〇12注入一定比例之純氧,使該容器1〇内被注入一定比 例之純氧量(例如:一大氣壓,5公升的體積); (103) 透過a亥供水设備由該容器1 〇之入水口 11不斷地 在入飲用水’以提高該容器10内壓力值; (104) 判斷該容器1〇内之壓力值是否到達預定之壓力 值(例如:10大氣壓之壓力值)?若是,繼續下列之步驟 (1〇5);否則,進行步驟(1〇3) (105) 該供水設備立即停止注入飲用水,並由該容器 之一出水口 13供應高溶氧水; (106) 判斷該容器内氧氣量是否低於設定量?若是, 進行步驟(102);否則,繼續下列之步驟(1的); 201223882 (107)判斷該容器内壓力值是否低於設定值?若是, 進行步驟(103);否則,進行步驟(1〇5)。 如此’藉由不斷地維持該容器1〇内之氧氣量及水壓力 值,使尚量之純氧可溶入飲用水中,進而由該容器1〇之出 水口 13可不斷地供應出高溶氧水。 本發明之一實施例中,該容器1〇内壓力值可為1〇大氣 壓以上’使20°C、5公升的氧氣,九約可以與水,在 10大氣壓下,製造出78. 7公升的9〇ppm高溶氧水。 該容器10的材質為塑化材質(例如:壓克力、玻璃纖 維…等)、碳纖維或金屬材質(例如:不鏽鋼、金、銀、 銅、鐵…等)。 該容器10的入水口11、出水口 13及入氣口 12處前端設有 可控制的閥門(圖中未示)。 該容器10中之一選定處設有一氧氣量偵測器(圖中未 示),用以偵測該容器10内之氧氣量。 5亥容器10中之另一選定處設有一壓力值偵測器(圖中 未示),用以偵測該容器10内之壓力值。 該谷器10的内部結構,可以是任何材質、通道設計、擾 動设计,以增加氧氣溶解進入水中的速率。 本發明所提供之高效率定壓溶氧水製造流程,與前述 習用技術相互比較時,更具有下列之優點: (1) 係克服前述傳統製造流程的缺陷,增加水中溶氣 飽和量,並使氧氣的利用率接近100%。 (2) 藉由不斷地維持該容器10内之氧氣量及水壓力 201223882 值’使高量之純氧可溶入飲用水中,進而由該容器ίο之出 水口 13可不斷地供應出高溶氧水。 (3) 可搭配市售的飲水過濾裝置,讓水質可更加純淨。 (4) 氧氣會因為壓力而溶解於水中,理論上在一大氣 壓、20°C的純水,飽和溶氧量為9. 07ppm ; 10大氣壓、2〇t的 純水,飽和溶氧量則為90. 7ppm ;只要有足夠的氧氣並維持容 器内部的壓力,即可製造高溶氧水。 (5) 可讓氧氣的利用效率,接近100% ;傳統製造高溶 氧水之製造流程,雖可快速、大量製造高溶氧水,但是氧氣 的利用效率通常低於10%,且會因為機器的小型化而更低。 (6) 現有的製造高溶氧水之技術與流程,氧氣利用效率 會因為機器設備的小型化而降低,若要在家庭或辦公室中製 造高溶氧水,將會需要較大型的氧氣鋼瓶,因為氧氣利用率 可能不到;本發明之製造流程’可讓氧氣個率接近1〇〇 % ’且不會因為機器的小型化而降低。 上列詳細說明係針對本發明之一可行實施例之具體說 明’惟該實施顺㈣以關本發明之專利範圍,凡未脫 離本發明技藝精神所為之等效#施或變更,例如:等變化 之等效性實施例,均應包含於本案之專利範圍中。 【圖式簡單說明】 第1圖為本發明容器之平面示意圖; 第2圖為本發明之製造流程圖。 【主要元件符號說明】 11入水 10容器 7 201223882 12入氣口 13出水口201223882 VI. Description of the Invention: [Technical Field] The present invention relates to a high-efficiency constant-pressure dissolved oxygen water production process, and more particularly to a high-efficiency constant-pressure dissolved oxygen water production process which can increase the amount of dissolved oxygen in water. [Previous technology] According to water, water is the most important component of the human body. Adults need at least 2 liters of drinking water per day. Various drinking water machines or bottled water are sold in the market. Some of them are dissolved oxygen in water. Selling point, because the body's various components, such as blood, lymph and body secretions, are related to water. Water accounts for 60-70% of adult body weight; blood contains about 90% water. After we eat, we swallow. Digestion, transportation of nutrients, and even things, all links need the help of water to smoothly enter the joints, water can prevent eyeballs from drying out, money and stomach juice drink more body temperature, take away by sweating _ too high contribution Insulting water can reduce the incidence of diarrhea, rib pain, etc., to avoid urinary stones. Also from the reduction of the packaging in the urine St: the sale of high is to break the bottle or reinforced plastic = stretch problem, the traditional high dissolved oxygen water production is in the oxygen fear, for the miniaturization of the machine, if used Often two need to use a large oxygen cylinder c 2:: the traditional drinking water filtration system can not increase in the imperfections 'especially the use of oxygen ^ often: 201223882 low, after years of continuous research and development by the creators, finally developed A high-efficiency constant-pressure dissolved oxygen water production process that can effectively utilize oxygen and increase the oxygen content of water. SUMMARY OF THE INVENTION One object of the present invention is to provide a high efficiency constant pressure dissolved oxygen water production process that overcomes the drawbacks of the above conventional manufacturing process, increases the dissolved oxygen content in water, and makes the oxygen utilization rate close to 100%. A second object of the present invention is to provide a high efficiency constant pressure dissolved oxygen water manufacturing process, which is a high efficiency constant pressure dissolved oxygen water production process which can increase the amount of dissolved oxygen in water. The high-efficiency constant-pressure dissolved oxygen water manufacturing process capable of achieving the above object includes: firstly, injecting a certain proportion of drinking water into a water inlet of a container by using a water supply device, so that a certain proportion of drinking water is injected into the container; Then, an oxygen supply device is used to inject a certain proportion of pure oxygen into the inlet port of the container, so that a certain proportion of pure oxygen is injected into the container; after that, the water supply device is continuously passed through the water inlet of the container. Injecting drinking water to increase the pressure in the container, so that the pressure in the container reaches a predetermined pressure value, the water supply device stops injecting the drinking water; then, the high-dissolved oxygen water is supplied from one of the outlets of the container, and the Is the amount of oxygen in the container lower than S? And determine whether the pressure value in the container is lower than the set value? If the amount of oxygen is lower than the set amount, the oxygen supply device is used to inject a certain proportion of pure oxygen into the inlet port of the container, so as to maintain the amount of oxygen in the container within a set amount; if the pressure value is lower than the set value The value is then injected into the drinking water through the water inlet of the container to increase the internal pressure of the container by 201223882, so that the pressure value in the container can be maintained within a set value; thus, by continuously maintaining The amount of oxygen and the pressure of the water in the container enable the high-oxygen oxygen to be supplied to the drinking water, and the high-dissolved oxygen water can be continuously supplied from the water outlet of the container. The following is a detailed description of a preferred embodiment of the present invention and its accompanying drawings, which will further understand the technical contents of the present invention and its effects: [Embodiment] The high-efficiency constant-pressure dissolved oxygen water provided by the present invention The manufacturing process, as shown in Figures 1 and 2, the manufacturing process mainly includes the following steps: (101) First, a water supply device (not shown) is used in a container 10 (for example, a container having a volume of 10 liters) The inlet port is filled with a certain amount of drinking water, so that a certain proportion of the drinking water is injected into the container 10; (102) using an oxygen supply device (not shown) in the container 〇12 inject a certain proportion of pure oxygen, so that the container is filled with a certain proportion of pure oxygen (for example: one atmosphere, 5 liters volume); (103) through the a Hai water supply equipment from the container 1 The water inlet 11 is continuously in the drinking water to increase the pressure value in the container 10; (104) determining whether the pressure value in the container 1 has reached a predetermined pressure value (for example, a pressure value of 10 atmospheres)? If yes, continue with the following steps (1〇5); otherwise, proceed to step (1〇3) (105) The water supply device immediately stops injecting drinking water, and supplies high dissolved oxygen water from one of the outlets 13 of the container; ) Is the amount of oxygen in the container below the set amount? If yes, proceed to step (102); otherwise, continue with the following steps (1); 201223882 (107) Determine if the pressure value in the container is lower than the set value? If yes, proceed to step (103); otherwise, proceed to step (1〇5). Thus, by continuously maintaining the amount of oxygen and water pressure in the vessel 1 , the amount of pure oxygen can be dissolved into the drinking water, and the water outlet 13 of the vessel 1 can be continuously supplied with high solubility. Oxygen water. In one embodiment of the present invention, the pressure value of the vessel 1 may be 1 〇 atmospheric pressure or more, so that 20 ° C, 5 liters of oxygen, and about 90 ° can be produced with water at 10 atm. 9〇ppm high dissolved oxygen water. The material of the container 10 is a plasticized material (for example, acrylic, glass fiber, etc.), carbon fiber or metal material (for example, stainless steel, gold, silver, copper, iron, etc.). A controllable valve (not shown) is provided at the front end of the water inlet 11, the water outlet 13, and the air inlet 12 of the container 10. An oxygen amount detector (not shown) is provided at one of the containers 10 for detecting the amount of oxygen in the container 10. Another selected portion of the 5H container 10 is provided with a pressure value detector (not shown) for detecting the pressure value in the container 10. The internal structure of the grain 10 can be any material, channel design, or perturbation design to increase the rate at which oxygen dissolves into the water. The high-efficiency constant-pressure dissolved oxygen water production process provided by the present invention has the following advantages when compared with the prior art: (1) overcomes the defects of the aforementioned conventional manufacturing process, increases the amount of dissolved gas saturation in water, and enables Oxygen utilization is close to 100%. (2) By continuously maintaining the amount of oxygen in the container 10 and the water pressure 201223882 value, a high amount of pure oxygen can be dissolved into the drinking water, and the water outlet 13 of the container can be continuously supplied with high solubility. Oxygen water. (3) It can be combined with a commercially available drinking water filter to make the water more pure. (4) Oxygen is dissolved in water due to pressure. Theoretically, in atmospheric water, 20 ° C pure water, saturated dissolved oxygen is 9. 07 ppm; 10 atmospheres, 2 〇t of pure water, saturated dissolved oxygen is 90. 7ppm; high dissolved oxygen water can be produced as long as there is enough oxygen and maintains the pressure inside the vessel. (5) The oxygen utilization efficiency can be close to 100%. The traditional manufacturing process of high dissolved oxygen water can quickly and mass-produce high dissolved oxygen water, but the oxygen utilization efficiency is usually less than 10%, and it will be due to the machine. Miniaturization and lower. (6) Existing technologies and processes for manufacturing high dissolved oxygen water, oxygen utilization efficiency will be reduced due to miniaturization of machinery and equipment. If high dissolved oxygen water is to be produced in a home or office, a larger oxygen cylinder will be required. Since the oxygen utilization rate may not be sufficient; the manufacturing process of the present invention 'allows the oxygen rate to be close to 1%' and does not decrease due to the miniaturization of the machine. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S) The detailed description of one of the possible embodiments of the present invention is intended to be in accordance with the scope of the invention. Equivalent embodiments are to be included in the scope of the patent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a plan view showing a container of the present invention; Fig. 2 is a flow chart showing the manufacture of the present invention. [Main component symbol description] 11 water inlet 10 container 7 201223882 12 air inlet 13 water outlet
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