CN1955123A - Functional water and manufacturing method and device thereof - Google Patents

Functional water and manufacturing method and device thereof Download PDF

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Publication number
CN1955123A
CN1955123A CN 200510114791 CN200510114791A CN1955123A CN 1955123 A CN1955123 A CN 1955123A CN 200510114791 CN200510114791 CN 200510114791 CN 200510114791 A CN200510114791 A CN 200510114791A CN 1955123 A CN1955123 A CN 1955123A
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water
functional
dissolving
manufacturing
method
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CN 200510114791
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奥田正明
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株式会社正和·专门
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Abstract

A kind of functional water (the water for beverage) is prepared from the purified water through adding vitamins, minerals and amino acids, dissolving O2 in it, filling it in containers and sealing. Its apparatus is also disclosed.

Description

功能水及其制造方法和制造装置 Functional water manufacturing apparatus and manufacturing method

技术领域 FIELD

本发明涉及一种高浓度地溶解有氧的功能水以及其制造方法和制造装置。 The present invention relates to a high-function water dissolved oxygen concentration and its manufacturing method and manufacturing apparatus.

背景技术 Background technique

近年来,人们提出了各种各样的物质作为高浓度地溶解有氧的功能水,其中之一就是饮料水。 In recent years, a variety of water features have been proposed as a high concentration of substances dissolved oxygen, one of which is to drink water. 氧除了从肺被摄取之外,也可以通过饮用这类饮料水从胃或肠等摄取,已经确认当摄取氧时具有以下效果:促进酒中所含有的酒精的分解以防止宿醉;防止因香烟所含有的一氧化碳而使身体各部分的氧供给能力降低;提高新陈代谢促进老废物的排出;促进运动时生成的乳酸分解防止疲劳。 In addition to oxygen uptake from the lungs, such a beverage may be consumed by water uptake from the stomach or intestine, etc., it has been confirmed to have the effect that when the oxygen uptake: to promote the decomposition of alcohol contained in the wine to prevent hangover; prevent oxygen supply capacity of the various parts of the body to reduce the carbon monoxide contained in the cigarette; increase metabolism facilitate the discharge of waste products; lactic acid generated during the decomposition promotion campaigns to prevent fatigue.

而且,就上述饮料水而言,例如已知有特开2001-292748号公报所公开的产品,该饮料水是,从深海取得海洋深层水将其调整到规定的盐分浓度后、使氧溶解于该水、使氧溶存量从6~8mg/l提高到25~30mg/l、将该氧溶解处理后的水填充于瓶内后密封而得到的。 Further, the above drinking water, for example, Laid-Open No. 2001-292748 is known as disclosed in JP product, the drinking water is made from the deep ocean deep water which was adjusted to a predetermined salt concentration, dissolved oxygen the water, the amount of dissolved oxygen increased from 6 ~ 8mg / l to 25 ~ 30mg / l, the dissolved oxygen in the treated water is filled sealed bottle obtained. 这样,由于氧溶存量高而且海洋深层水含有各种天然的矿物质,所以作为增进健康为目的的饮料水其商品价值高。 In this way, due to the high amount of dissolved oxygen and deep ocean water contains a variety of natural minerals, so as to improve health for the purpose of drinking water to its high commercial value.

另外,就使氧溶解于水(饮料水)的方法而言,例如,如特开平10-314561号公报所公开的饮料水那样,通过将空气或利用氧生成装置生成的氧气通于水中,可使氧溶解于该水中。 Further, it is for the method of the oxygen dissolved in water (drinking water), e.g., as drinking water Publication Laid-Open No. 10-314561, as disclosed in, by using air or oxygen through the oxygen generating means for generating in water, can be the oxygen dissolved in the water.

但是,上述现有的饮料水,当开封瓶子时,该瓶子内的饮料水接触空气,溶解的氧被放出到空气中,所以氧溶存量随着时间的经过而降低,在短时间内降低到与氧溶解处理前同等的水平。 However, the conventional drinking water, when unsealing the bottle, the bottle of drinking water in contact with air, dissolved oxygen is released into the air, so that the amount of dissolved oxygen decreases with time, in a short time to reduce pre-treatment with the same level of dissolved oxygen.

因此,开封瓶子之后必须一次全部饮用完瓶内的饮料水或扔掉没有饮用完的那部分,经过一定时间之后,即使饮用剩下的饮料水,由于氧溶存量降低,所以难以得到上述那样的效果,饮用时不能只饮用想饮用的量。 Thus, the bottle must be opened after the completion of a full bottle of drinking water, beverage or thrown away portion not finished drinking, after a certain time, even if the rest of the drinking water, beverages, due to the reduced amount of dissolved oxygen, it is difficult to obtain the above-described effect, can not drink just want to drink the amount of drinking.

这样,上述饮料水等所代表的功能水的问题在于,即使刚刚进行了氧溶解处理后的氧溶存量多,当其被放置于大气中时,氧溶存量随着时间的经过而降低到与氧溶解处理前同等的水平。 Thus, the above-described functional water and other drinking water represent a problem in that even if the dissolved oxygen has just the amount of dissolved oxygen after multiple treatment, when it is placed in the atmosphere, the amount of dissolved oxygen decreases with time to a oxygen dissolution same level before treatment.

发明内容 SUMMARY

本发明就是鉴于以上实情而完成的,其目的是提供一种刚刚进行氧溶解处理后的氧溶存量多、且即使被放置于大气中氧溶存量也难以降低的功能水以及其制造方法和制造装置。 The present invention is accomplished in view of the above facts, it is an object to provide an amount of dissolved oxygen immediately after the dissolution treatment of multiple oxygen functions and even if the water is left in the air is also difficult to reduce the amount of dissolved oxygen and its manufacturing method and device.

为了达成上述目的的本发明涉及一种功能水,是在原水中溶解自然溶解浓度以上的氧的功能水,其特征在于,刚刚进行氧溶解处理后的氧溶存量为25~70mg/l,之后,在被放置于大气中的状态下,经过24小时后的氧溶存量保持在15mg/l以上。 In order to achieve the present invention, the above object relates to a functional water, dissolving function natural water dissolved the above oxygen concentration in the raw water, characterized in that, just oxygen dissolved amount after oxygen dissolution treatment is 25 ~ 70mg / l, then, It is placed in a state in the atmosphere, after 24 hours the amount of dissolved oxygen is maintained at 15mg / l or more.

另外,该功能水也可含有维生素、矿物质、氨基酸或药物之中的至少一种,填充并密封于可搬式容器内。 Further, this feature may also contain water in vitamins, minerals, amino acids, or at least one drug, may be filled and sealed in the transport container.

这样的功能水,在刚刚进行氧溶解处理后的氧溶存量为25~70mg/l的高浓度,并且,即使被放置于大气中且与大气接触,只要经过时间为24小时以内,氧溶存量仍保持在15mg/l以上这样多的状态,所以例如当其用作饮料水时,将填充、密封该饮料水的可搬式容器开封后,氧溶存量仍保持高的状态,当想饮用该饮料水(功能水)时,可只饮用想饮用的量,而且,即使任何时候饮用,也能摄取得到上述那样的效果的充分量的氧。 Such functional water, the oxygen dissolved amount immediately after the oxygen dissolution treatment is 25 ~ 70mg / high concentration of l, and even after being left in the air and in contact with the atmosphere, as long as the elapsed time is within 24 hours, dissolved oxygen stock after remains so much in 15mg / l or more state, such as when it is used as drinking water, filling, sealing the beverage water can be conveyed container unsealed, dissolved oxygen stock remains high state, when you want to drink the beverage water (functional water), may want to drink only the amount of consumption, and, even if any time to drink, can be taken to obtain the above mentioned effects of a sufficient amount of oxygen. 因此,该饮料水的饮用变得容易。 Therefore, the beverage drinking water easier. 另外,经过24小时后的氧溶存量更优选为35mg/l以上。 Further, after the amount of dissolved oxygen after 24 hours and more preferably 35mg / l or more.

另外,该功能水除饮料水之外,也可用于医药品或化妆品的原料等,例如,当使用于眼药或洗眼水、化妆水时,也可得到从眼或皮肤表面吸收氧而促进该部分新陈代谢的效果。 Further, in addition to the drinking water functional water, can also be used for cosmetic or pharmaceutical raw materials, e.g., when used in eye drops or eye wash, lotion, can be obtained while promoting the absorption of oxygen from the surface of the skin or the eye effects section metabolism. 另外,这只是该功能水的适用用途之一,其用途并不限定于此。 Further, this is only one suitable use of the functional water, its use is not limited thereto.

这样,本发明的功能水即使是在放置于大气中的状态下氧溶存量也难以降低,所以可更进一步提高该功能水的商品价值。 Thus, functional water of the present invention, even in the case is placed in the atmosphere in a state difficult to reduce the amount of dissolved oxygen, it is possible to further improve the commercial value of the functional water. 另外,如果该功能水含有维生素、矿物质、氨基酸或药物之中的至少一种,就可成为更进一步提高该功能水的商品价值的功能水。 In addition, if the water contains at least one function among the vitamins, minerals, amino acids or drugs, can become functional water further improve the function of the commodity value of water.

而且,该功能水可使用以下的制造方法适当地制造。 Furthermore, the functional water can be suitably manufactured using the following manufacturing method.

也就是说,该制造方法是:将加压的氧气供给到密闭容器体内,使该密闭容器体内部成为大气压以上的氧气环境;同时,使原水吐出到上述密闭容器体内,通过使被吐出的原水在上述密闭容器体内以膜状流下,使之与氧气气液接触,生成溶解有25~70mg/l氧的功能水;接着,从上述密闭容器体内取出生成的功能水。 That is, the manufacturing method is: the pressurized oxygen supply to the body of the closed vessel, the interior of the sealed container body becomes above atmospheric oxygen atmosphere; the same time, the raw water discharged into the sealed container body, by making the raw water to be discharged in the film-like stream of the closed container body, making contact with the liquid oxygen, generated by dissolving 25 ~ 70mg / l oxygen functional water; then, remove the functional water generated from the sealed container body.

利用该制造方法,在将氧气压力提高到大气压以上的密闭容器体内部,使原水以膜状流下,从水膜的两侧与氧气接触,生成具有如下特征的功能水,该原水的氧溶存量从该处理前的6~8mg/l提高到25~70mg/l的高氧浓度,而且即使在放置于大气中的状态下经过24小时,氧溶存量仍保持在15mg/l以上、更优选保持在35mg/l以上。 With this manufacturing method, the oxygen pressure was increased to the hermetic container body above atmospheric, the raw water flows down to a film in contact with oxygen from the water film on both sides, to generate the functional water having the following characteristics, the amount of dissolved oxygen in the raw water from 6 ~ 8mg before the processing / l up to a high oxygen concentration 25 ~ 70mg / l, and even after 24 hours at left in the air in a state, the oxygen dissolved amount remained at 15mg / l or more, and more preferably maintained at 35mg / l or more. 这被认为是:因为在高压的氧气环境下,当水分子和氧分子接触时,它们的一部分离子化,该水分子和氧分子通过离子键而成为结合的状态、氧溶解于原水中,所以由这类离子键生成了高氧浓度且氧溶存量难以降低的功能水。 This is considered to be: Because oxygen high-pressure environment, when the water molecules and oxygen molecules in contact with, a portion thereof ionized, the water molecules and oxygen molecules by ionic bonds to a state bound to the oxygen dissolved in the raw water, so and generating the functional water of high oxygen concentration is difficult to reduce the amount of dissolved oxygen by such an ionic bond. 然后,从上述密闭容器体内取出生成的功能水。 Then, remove the functional water generated from the sealed container body.

另外,上述制造方法,优选通过逆浸透处理净化上述原水,将净化后的原水供给到上述密闭容器体内;另外,优选将维生素、矿物质、氨基酸或药物之中的至少一种添加到上述原水中后将该添加处理后的原水供给到上述密闭容器体内,或,将维生素、矿物质、氨基酸或药物之中的至少一种添加到上述净化后的原水中后将该添加处理后的原水供给到上述密闭容器体内,或者,将维生素、矿物质、氨基酸或药物之中的至少一种添加到从上述密闭容器体内取出的功能水中;另外,还可以将从上述密闭容器体内取出的功能水填充于可搬式容器内后密封,或者,将添加了维生素、矿物质、氨基酸或药物之中的至少一种的功能水填充于可搬式容器内后密封。 Further, the above-described manufacturing method, preferably by reverse osmosis purification treatment of the raw water, the raw water purified is supplied to the sealed container body; Further, preferably at least one raw water being added to the above vitamins, minerals, amino acids, or a drug after adding the raw treated water supplied to the closed container body, or, in at least one additional vitamins, minerals, amino acids, or a drug to a raw water after the addition processing after the raw water supplied to the purified the closed container body, or at least one functionality added to the water taken out from the closed container into the body of vitamins, minerals, amino acids, or a drug; further, the closed container can be taken out from the body of the functional water filled after sealing the container may be conveyed formula, or, after adding the water at least one function among the vitamins, minerals, amino acids, or a drug may be filled into the sealed container conveyed.

而且,该制造方法可优选利用以下的制造装置实施。 Further, the manufacturing method may preferably be implemented by the following manufacturing apparatus.

即,该制造装置具备:在原水中溶解自然溶解浓度以上的氧生成功能水的氧溶解处理设备部;和,将由该氧溶解处理设备部生成的功能水填充于可搬式容器内后密封的填充处理设备部,上述氧溶解处理设备部具备:密闭容器体;具有连接于上述密闭容器体内的供给管、通过该供给管将氧气供给到上述密闭容器体内、使该密闭容器体内部成为大气压以上的氧气环境的氧供给单元;具有一端侧连接于上述密闭容器体内、在该密闭容器体内以上下方向配置、且在上端面形成了吐出口的第一给水管,从该第一给水管的吐出口向上述密闭容器体的顶部方向吐出上述原水的水供给单元;连接于上述密闭容器体内、将贮存在该密闭容器体底部的上述功能水供给到外部的第二给水管;从上述密闭容器体的内面向内侧突出的第一制流部件以及/或者从上述第一给水管的 That is, the manufacturing apparatus comprising: dissolving oxygen dissolution processing apparatus unit NATURAL dissolved oxygen generating function water over a concentration in the raw water; and, functional water of the oxygen dissolution processing apparatus unit data generated by filling in the filling process sealed after the transportable container apparatus portion of the oxygen dissolution treatment apparatus unit includes: closed container body; a supply pipe connected to the closed container body, through which supply pipe supplying oxygen to said closed container body, the inside of the sealed container body becomes above atmospheric oxygen oxygen supply means environment; having one end connected to the closed container body, disposed in at least the direction of the closed container body, and is formed on the end face of the spout to the first pipe, from the discharge port to the first water supply pipe water supply means top direction of the closed container body, discharging the raw water; connected to the closed container body, will be stored in the second water supply pipe above functional water supplied to the bottom of the closed container body to the outside; inside from the sealed container body protruding inward flow member made of a first and / or from the first water supply pipe 一端侧外周面向外侧突出的板状的第二制流部件,上述氧溶解处理设备部被构成为:使上述原水从上述吐出口向上述密闭容器体的顶部方向吐出,同时,使从该吐出口吐出的且顺着上述密闭容器体的内周面以及/或者上述第一给水管的外周面流动的原水,从上述第一制流部件以及/或者第二制流部件的突出端向上述密闭容器体的内部空间中流下,从而使上述原水在上述密闭容器体内部与氧气进行气液接触生成上述功能水,上述填充处理设备部,将从上述氧溶解处理设备部的第二给水管供给的功能水填充于上述可搬式容器内后密封。 The second system stream member one end side of the outer peripheral surface of the outer projecting plate, said oxygen dissolution treatment apparatus unit is configured to: cause the raw water discharged from the discharge port toward the top of the closed container body, while the outlet from the discharge and discharged along the inner peripheral surface of the closed container body and / or the outer peripheral surface of the raw water flowing in the first water supply pipe, from said first system stream member and / or the end of the second projecting member made flow into the sealed container the inner space of the shed, so that the raw water to generate the functional water gas-liquid contact inside the closed container with oxygen, the filling unit processing apparatus, is supplied from the second supply pipe portion of the oxygen dissolved in the processing device features water filled in the sealed within said transportable container.

利用该制造装置首先在氧溶解处理设备部中从原水生成功能水。 First, functional water generated from the oxygen dissolved in the raw water processing apparatus portion of the manufacturing apparatus utilized. 具体地,利用氧供给单元通过供给管将氧气供给到密闭容器体内,该密闭容器体内部成为大气压以上的氧气环境后,通过水供给单元将原水(氧溶解前的水)供给到第一给水管内,被供给的原水流通该第一给水管内之后,从其吐出口被吐出到密闭容器体内。 Specifically, after the use of an oxygen supply unit supplying oxygen through the supply pipe to the closed container body, the interior of the closed container body becomes above atmospheric oxygen atmosphere, supplying raw water (water pre-dissolving oxygen) into the first water supply by the water supply unit after the raw water is supplied to flow within the first pipe, it is discharged from the discharge outlet to the hermetic container body.

被吐出的原水以喷水状(以吐出口为中心的放射状)向顶部方向喷出,与顶部面或内周面等密闭容器体的内面冲击后,沿该内面流动、或弹回下落到密闭容器体的内部空间中、或沿第一给水管的外周面流动,然后,沿密闭容器体的内面或第一给水管的外周面流动的原水被各个制流部件分别控制其流动,以薄膜状且瀑布状从该各个制流部件的突出端向上述密闭容器体的内部空间中流下。 The discharged raw water in a spray form (in spout centered radially) is ejected toward the top, the inner surface impact of the container body and the top surface or the inner peripheral surface thereof was sealed, along the inner surface of the flow, or springing fall into a closed the interior space of the container body, or the outer circumferential surface of the flow along the first water supply pipe, and then flow along the inner surface of the sealed container body or the outer circumferential surface of the first water supply of raw water by the respective braking flow components respectively controlling the flow, in order to film-form and waterfall flow from each end of the projecting member made flow into the internal space of the sealed container body.

而且,流过密闭容器体内的原水贮存于密闭容器体的底部,但在这类氧气环境中的流动过程中氧溶解于与其接触的该原水中。 Further, the closed container body flows through the raw water reservoir in the bottom of the closed container body, but the flow of the process in such an atmosphere of oxygen in the oxygen dissolved in the raw water in contact therewith. 由此生成具有如下特征的功能水,即,该原水的氧溶存量从该处理前的6~8mg/l提高到25~70mg/l的高氧浓度,且即使在放置于大气中的状态下经过24小时,氧溶存量仍能保持在以上15mg/l,更优选保持在35mg/l以上。 State thereby producing functional water having the following characteristics, i.e., oxygen dissolved amount of the raw water is increased from 6 ~ 8mg before the process / l to the high oxygen concentration 25 ~ 70mg / l, and even when placed in the atmosphere after 24 hours, the amount of dissolved oxygen can still maintain more than 15mg / l, more preferably maintained at 35mg / l or more.

然后,贮存于密闭容器体的功能水(氧溶解后的水)由于密闭容器体内部的氧气压力从第二给水管被供给到密闭容器体外,被供给的功能水通过填充处理设备部被填充于可搬式容器内后密封。 Then, the container body is kept in closed functional water (water dissolved oxygen) of oxygen due to the pressure inside the closed container body is supplied to the water from the second closed vessel to the outside, functional water supplied through the filling portion is filled in the processing apparatus after sealing the container may be conveyed. 这样制造了被填充、密封于可搬式容器内的功能水。 Thus manufactured is filled, may be sealed in the transfer function of the water in the container.

另外,上述制造装置还具备净化上述原水的逆浸透处理设备部,上述氧溶解处理设备部的水供给单元优选被构成为,使通过上述逆浸透处理设备部净化的原水从上述第一给水管的吐出口吐出,另外,上述制造装置还具有将维生素、矿物质、氨基酸或药物之中的至少一种添加到上述原水中的添加处理设备部,上述氧溶解处理设备部的水供给单元被构成为,使通过上述添加处理设备部处理过的原水从上述第一给水管的吐出口吐出,上述制造装置还具有将维生素、矿物质、氨基酸或药物之中的至少一种添加到通过上述逆浸透处理设备部净化过的原水中的添加处理设备部,上述水供给单元被构成为使通过上述添加处理设备部处理的原水从上述第一给水管的吐出口吐出,上述制造装置还具有将维生素、矿物质、氨基酸或药物之中的至少一种添加到从上述氧溶 Further, the manufacturing apparatus further includes a reverse osmosis processing apparatus portion purifying the raw water of the oxygen dissolution treatment apparatus unit water supply unit is preferably configured so that raw water through the reverse osmosis processing apparatus section purified from the first water supply pipe discharge outlet, further, the manufacturing apparatus further comprises at least one additional processing device is added to a portion of the raw water in vitamins, minerals, amino acids, or a drug, the water supply means of the oxygen dissolved portion processing apparatus is configured to that discharged from the discharge port to the first pipe portion by the above-described addition processing apparatus processed the raw water, the production apparatus further comprises at least one additive into vitamins, minerals, amino acids, or by the reverse osmosis process medicament equipment portion the purified raw water addition processing equipment unit, the water supply means is configured such that the raw water by the above-described addition processing apparatus unit processes discharged from the discharge outlet of the first water supply pipe, the production apparatus further includes the vitamins, minerals among the substances, at least one amino acid or a drug added to the dissolved oxygen from the 处理设备部的第二给水管供给的功能水中的添加处理设备部,上述填充处理设备部优选被构成为将通过上述添加处理设备部处理的功能水填充、密封于上述可搬式容器内。 The second function of the water supplied to the water adding unit processing apparatus unit processing apparatus, the filling apparatus processing unit preferably is configured to add the above-described processing by the function of water treatment apparatus portion is filled, it may be sealed in the above-described transportation container.

这样,利用这些功能水制造方法以及制造装置,以放射状从吐出口喷出原水增大该原水的与氧气的接触面积,同时,通过第一制流部件或第二制流部件控制沿密闭容器体的内面或第一给水管的外周面流动的原水的流动,使原水以薄膜状或瀑布状从该制流部件的突出端向上述密闭容器体的内部空间中流下,使原水从水膜的两面侧与氧气接触,另外,由于还提高了密闭容器体内部的氧气压力,所以可使更多的氧有效地溶解于该原水中,可有效地生成如上述那样的高氧浓度而且氧溶存量难以降低的功能水。 Thus, with these functional water manufacturing apparatus and a manufacturing method, the raw water is ejected radially from the discharge port of the raw water is increased contact area with the oxygen, while the flow through the first braking member or the second member made of a control flow thereof along the sealed container the flow of the raw water the outer circumferential surface of the inner surface or the first water supply pipe flows, so that the original water film or waterfall flow from the protruding end of the system stream member to the interior space of the sealed container body, the raw water from both sides of the water film side contact with oxygen, in addition, since the oxygen also improves the pressure inside the closed container body, so that more oxygen can be effectively dissolved in the raw water, can efficiently generate a high oxygen concentration as described above and the amount of dissolved oxygen is difficult reduce the function of water.

如以上详细叙述的那样,本发明的功能水即使是在放置于大气中的状态下,如果在经过上述规定时间以前,仍能保持高氧浓度的状态,所以能提高该功能水的附加价值。 As described in detail above, according to the present invention, even functional water is placed under the atmosphere state, if the predetermined time elapsed before, can maintain the state of a high oxygen concentration, it can improve the added value of the functional water. 另外,如果使该功能水含有维生素、矿物质、氨基酸或药物,就可更进一步提高该功能水的附加价值。 Further, when the functional water containing the vitamins, minerals, amino acids, or a drug, can further improve the added value of the functional water.

另外,如果利用本发明的功能水制造方法以及制造装置,就可适当地制造上述那样的功能水。 Further, if the use of functional water manufacturing apparatus and a manufacturing method of the present invention, can be suitably produced functional water described above.

附图说明 BRIEF DESCRIPTION

图1是表示制造作为本发明的一实施方式的功能水的饮料水的饮料水制造装置的简要构成的方块图。 FIG. 1 is a block diagram showing a schematic functional water producing drinking water as one embodiment of the present invention is a beverage made of water-making apparatus.

图2是表示本实施方式的氧溶解处理设备的简要构成的断面图。 FIG 2 is a sectional view showing a schematic configuration of dissolved oxygen according to the embodiment of the processing apparatus.

图3是沿图2中的箭头AA方向的断面图。 FIG 3 is a sectional view in direction of arrows AA in FIG 2.

图4是沿图2中的箭头BB方向的断面图。 FIG 4 is a sectional view in the direction of arrow 2 along BB of FIG.

图5是沿图2中的箭头CC方向的断面图。 FIG 5 is a sectional view in the direction of arrow 2 along CC of FIG.

图6是用于说明本实施方式中的水的流动的说明图。 FIG 6 is an explanatory view of the flow of water in the present embodiment for explanation.

图7是表示本发明的其它实施方式的氧溶解处理设备的简要构成的断面图。 FIG. 7 is a sectional view showing another embodiment of an oxygen dissolution processing apparatus of the present invention, a brief configuration.

图8是沿图7中的箭头DD方向的断面图。 FIG 8 is a sectional view in the direction of the arrow DD in FIG. 7.

图9是用于说明本发明的其它实施方式中的水流动的说明图。 FIG 9 is a diagram illustrating the flow of water to another embodiment of the present invention. FIG.

图10是表示本发明的其它实施方式的第2制流板等的简要构成的平面图。 FIG 10 is a schematic plan view showing another flow of the second system board according to an embodiment of the present invention. FIG.

图11是表示本发明的其它实施方式的第2制流板等的简要构成的断面图。 FIG 11 is a schematic sectional view showing another configuration of the second flow system board according to an embodiment of the present invention.

图12是表示本发明的其它实施方式的制流部件等的简要构成的断面图。 FIG 12 is a schematic sectional view showing the flow member made of another embodiment of the present invention configured like.

具体实施方式 detailed description

以下,基于附图说明本发明优选的实施方式。 The following describes a preferred embodiment of the present invention based on the embodiment. 图1是表示制造作为本发明的一实施方式的功能水的饮料水的饮料水制造装置的简要构成的方块图,图2是表示本实施方式的氧溶解处理装置的简要构成的断面图,图3是图2中的箭头AA方向的断面图,图4是图2中的箭头BB方向的断面图,图5是图2中的箭头CC方向的断面图,图6是用于说明本实施方式中的水流的说明图。 FIG. 1 is a block diagram schematic of drinking water of drinking water for producing functional water as an embodiment of the present invention a manufacturing apparatus of the configuration, FIG 2 is a sectional view of the oxygen present embodiment dissolution treatment apparatus of a schematic configuration, FIG. 3 is a sectional view in the direction of arrows AA in FIG. 2, FIG. 4 is a sectional view in the direction of arrow BB in FIG. 2, FIG. 5 is a sectional view in the direction of arrow CC in FIG. 2, FIG. 6 is a view for explaining the present embodiment the flow described in FIG.

本例中的作为功能水的一例的饮料水,除了高浓度地溶解有氧之外,还含有维生素、矿物质以及氨基酸等,被填充并密封于具有规定内容积的瓶子(可搬式容器)内。 Drinking water as an example of the functional water of the present embodiment, in addition to a high concentration of dissolved oxygen, also contain vitamins, minerals, amino acids and the like, it is filled in and sealed (transportable container) having a predetermined volume of the bottle . 另外,该饮料水在刚刚进行氧溶解处理后的氧溶存量为25~70mg/l,且在放置于大气中的状态下经过24小时后的氧溶存量保持在15mg/l以上、更优选保持在35mg/l以上,即,密闭状态下的氧溶存量为25~70mg/l,且瓶子开封后即使经过24小时,氧溶存量也保持在15(35)mg/l以上。 Further, the oxygen dissolved amount of the drinking water immediately after the oxygen dissolution treatment is 25 ~ 70mg / l, and after oxygen dissolved amount after 24 hours was maintained at 15mg / l or more in the state placed in the atmosphere, and more preferably maintained at 35mg / l or more, i.e., the amount of dissolved oxygen in a sealed state is 25 ~ 70mg / l, and after opening the bottle even after 24 hours, the amount of dissolved oxygen is maintained at 15 (35) mg / l or more.

而且,这类饮料水可使用图1所示的饮料水制造装置1而适当地制造,该饮料水制造装置1如图1所示,其构成是具有净化处理设备11、添加处理设备15、氧溶解处理设备20以及填充处理设备16,将原料水(饮料原水)在该处理设备11、15、20、16中依次进行处理,制造填充于瓶子内的饮料水。 Moreover, such beverages may be used water drinking water production apparatus shown in FIG. 1 is suitably manufactured, the drinking water production apparatus 1 shown in Figure 1, is configured having a purification device 11, processing device 15 is added, oxygen dissolving processing apparatus 20 and processing apparatus 16 is filled, the raw water (raw water drink) sequentially processed in the processing device 11,15,20,16, producing drinking water filled in the bottle.

上述净化处理设备11由第一过滤处理部12、第二过滤处理部13以及逆浸透处理部14构成,第一过滤处理部12被构成为通过适当的过滤器从饮料原水中除去垃圾或尘埃等,第二过滤处理部13被构成为通过碳过滤器从用第一过滤处理部12处理过的饮料原水中吸附并除去三卤化甲烷等卤素化合物,逆浸透处理部14被构成为通过逆浸透膜从用各个过滤处理部12、13处理过的饮料原水中除去未能用该处理部12、13除去的杂质(例如二恶英(dioxin)或环境激素等)。 The above purification treatment apparatus 11 is constituted by a first filter processing portion 12, filtering processing portion 13 and the second reverse osmosis processing section 14, a first filter processing section 12 is configured through an appropriate filter to remove the water from the beverage raw garbage, dust and the like second filter processing portion 13 is configured to remove adsorbed and methane trihalide halogen compounds from a beverage treated with a first filter processing portion 12 the raw water through a carbon filter, a reverse osmosis processing section 14 is configured by a reverse osmosis membrane impurities (e.g. dioxins (dioxin which) environmental hormones or the like) of the processing unit 12, 13 are removed from a beverage treated with the respective filter processing units 12 and 13 with the raw water to remove failed.

上述添加处理设备15被构成为将维生素、矿物质以及氨基酸等添加到用净化处理设备11的逆浸透处理部14处理过的饮料水中。 The above-described addition processing apparatus 15 is configured to add vitamins, minerals and amino acids to the purification treated with the reverse osmosis processing apparatus 11 of the processing unit 14 the beverage water.

上述氧溶解处理设备20被构成为,使氧溶解于用添加处理设备15处理过的饮料原水中生成饮料水,如图2~图5所示,具备:形成圆筒状且具有密闭空间的容器体21;将氧气供给到容器体21内的氧供给部22;检测容器体21内部的氧气压力的压力检测器(没有图示);将饮料原水供给到容器体21内的水供给部23;将容器体21内部的饮料水供给到外部的给水管(第三给水管)24;配置于容器体21内的上部位置的第一、第二以及第三制流板25、26、27;检测容器体21内的水位的水位检测部28。 Of the oxygen dissolution treatment apparatus 20 is configured to generate the oxygen dissolved in the beverage for drinking water processing apparatus 15 is added to the treated raw water, 2 to 5, comprising: a cylindrical shape and having a closed space of the container 21; oxygen fed to the container an oxygen supply unit in the 21 body 22; a pressure detector oxygen pressure inside the 21 (not shown) detects the container body; beverage raw water fed to the container the water supply portion in the 2123 thereof; the water inside the beverage container 21 is supplied to an external water supply pipe (third feed pipe) 24; disposed in an upper position within the container body 21 of the first, second and third plates 25, 26 made stream; detecting detecting water level in the water level section 21 of the container body 28.

上述容器体21的顶部形成向外方突出的球状弯曲面,该顶部上连接有连通容器体21内部和外部的排气管29,该排气管29上设置有通常被控制成关闭状态的排气阀29a。 The top of the container body 21 is formed projecting outwardly curved spherical surface, is connected to the container body 21 communicates inside and outside of the exhaust pipe 29 on the top, it is provided with a normally closed state is controlled to discharge the exhaust pipe 29 valve 29a. 另外,容器体21的下面被载置在适当的安装部件30上,并被其支持。 Further, the container body 21 is next placed on a suitable mounting member 30, and its support.

上述氧供给部22包括:供给氧气的氧供给源22a,和一端侧连接于氧供给源22a而另一端侧连接于后述的第一给水管23a的供给管22b,和通过供给管22b调整从氧供给源22a供给到容器体21内的氧气流量的供给阀22c;通过供给管22b以及第一给水管23a将氧气供给到容器体21内,使容器体21内部成为大气压以上的氧气环境。 Said oxygen supply unit 22 includes: 22a, and one end of the oxygen supply source is connected to the oxygen supply an oxygen supply pipe 22a and the other end connected to the rear side of said first supply pipe 23a, 22b, and 22b by adjusting the supply tube an oxygen supply source 22a to supply the flow of oxygen inside the container body 21 of the valve 22c; 22b through the supply pipe to the first pipe 23a and the oxygen fed to the container body 21, the inside of the container body 21 is above atmospheric oxygen atmosphere. 另外,供给阀22c的开度被调整为,使通过上述压力检测器(没有图示)检测出的压力值或通过上述水位检测部28检测出的水位基本保持在一定值。 Further, the opening degree of the supply valve 22c is adjusted so that the pressure value detected by said pressure detector (not shown) or by detecting the water level 28 of the water level detecting unit maintained at a substantially constant value.

上述水供给部23具备:轴线沿上下方向设置,同时被配置在与容器体21同轴位置上,上端面与容器体21的顶部面间隔规定间隔且配置在容器体21的上部侧的第一给水管23a;一端侧从容器体21的外周面贯入到容器体21内,且连接于上述第一给水管23a的上端部和下端部之间的第二给水管23b;连接于第二给水管23b的另一端侧,且通过各个给水管23b、23a将用上述添加处理设备15处理过的饮料原水供给到容器体21内的泵装置23e等。 The water supply unit 23 includes: an axis in the vertical direction while being arranged in a coaxial position with the container body 21, the upper surface 21 spaced a predetermined top end surface of the container body 21 spaced and arranged in the upper side of the first container body water supply pipe 23a; one end side of the outer peripheral surface of the container body 21 from the penetration into the container body 21, and is connected to the second supply pipe portion between the upper and lower end portions 23a of the first water supply pipe 23b; connected to the second water supply the other end side of the tube 23b, and is supplied to the container 23e within the pump device 21 to the respective the like through the beverage pipe 23b, 23a will be treated with the additive raw water processing apparatus 15.

上述第一给水管23a具备开口于其上端面且向着上述顶部方向吐出饮料原水的吐出口23c,该吐出口23c的内径被形成为比第一给水管23a的其它部分(内径D1)小。 The first water supply pipe 23a has an opening end surface thereon toward said top and the beverage discharge direction of the raw water discharge port 23c, the inner diameter of the discharge port 23c is formed to be other than the first supply pipe portion 23a (inner diameter D1) smaller. 另外,第一给水管23a的下端部被连接于上述供给管22b的另一端侧,该第一给水管23a的下端面通过密封部件22d被适当密封。 Further, to the lower end portion of the first pipe 23a is connected to the supply pipe and the other end 22b side of the first pipe 23a to the lower end surface of the sealing member is properly sealed 22d.

上述第二给水管23b中设置有没有图示的逆止阀,通过该逆止阀(没有图示)防止供给到容器体21内的饮料原水的逆流或从供给管22b供给的氧气泄漏到外部。 The second is provided with a check valve (not shown) to the pipe 23b, the raw water to prevent the beverage in the container body 21 is supplied to countercurrent or oxygen gas supplied from the supply pipe 22b by leaking to the outside of the check valve (not shown) .

上述第三给水管24的一端侧从容器体21的底部外周面贯入于其内部,利用该容器体21内部的氧气压力将贮存于容器体21内部的底部的饮料水(溶解有氧的水)供给到容器体21外。 To one end of the third tube 24 from the bottom of the container body 21 of the outer circumferential surface of the penetration inside thereof, the container body 21 by using the internal pressure of the oxygen stored in the interior of the drinking water in the bottom 21 of the container body (dissolved oxygen in water ) is supplied to the outer container body 21. 另外,第三给水管24被构成为其内径D2相同或者小于第一以及第二给水管23a、23b的内径D1,具有开口于上述一端面上且用于将饮料水供给到外部的吸入口24a。 Further, a third water supply pipe 24 is configured for the inner diameter D1 is smaller than or the same as the inner diameter D2 of the first and second water supply pipe 23a, 23b having an opening to the one end face and for supplying potable water to the outside of the suction port 24a .

上述第一、第二以及第三制流板25、26、27由在上下方向上相隔一定间隔配置的平板且为环状的部件构成,第一制流板25是,其外周面被嵌插固定于容器体21的上部内周面上的同时,其内周面被外嵌于第一给水管23a的上端部;第二制流板26是,其内周面被外嵌固定于第一给水管23a的上端部,且被配置于第一制流板25的下方;第三制流板27是,其外周面被嵌插固定于容器体21的上部内周面,且被配置于第二制流板26的下方。 Said first, second and third plates 26, 27 by a flow system spaced intervals in a vertical direction and an annular plate member, and the first plate 25 is a flow system, the outer circumferential face is inserted while the upper portion is fixed to the inner circumferential surface of the container body 21, the inner circumferential surface fitted to the first pipe to the upper end portion 23a; a second plate 26 is a system flow, which is fitted the inner peripheral surface fixed to the first to the upper pipe portion 23a, and is arranged below the first plate 25 made of a stream; flow plate 27 is made of a third, it is fitted into the outer peripheral surface fixed to the inner periphery of the upper surface of the container body 21, and is arranged on the first the lower plate 26 made of two streams.

上述第一制流板25具备开口于其里外的扇状的四个贯通孔25a,控制沿容器体21的内周面或第一给水管23a的外周面流动的饮料原水、冲击容器体21的顶部面且弹回的饮料原水的流动(控制饮料原水的流动),使之以薄膜状且瀑布状从该第一制流板25的各贯通孔25a向容器体21的内部空间中流下。 The first flow plate 25 includes an opening made in its four fan-shaped through hole in the outer 25a, the control along the inner peripheral surface of the container 21 or beverage raw water in the first water pipe 23a to the outer peripheral surface of the flow, the impact of the container body 21 top surface and spring back flow of beverage raw water (control beverage raw water flow), so that a thin film shape, and a waterfall from the through holes of the first system stream plate 25a of the inner space 21 flows down into the container body.

上述第二制流板26,其外周面(端部边缘)形成为Z字形状,控制由第一制流板25制流而流下的饮料原水、或通过第一制流板25的各个贯通孔25a的饮料原水的流动,使之以薄膜状且瀑布状从该第二制流板26的外周部(突出端)向容器体21的内部空间中流下。 And the second flow plate 26 made of an outer circumferential surface (end edge) is formed as a Z-shape, the control system 25 of the beverage raw water stream flow plate made of a first flow or stream produced by a first plate 25 of the through holes the beverage flows 25a of raw water, so that a thin film-like shape, and falls in the interior space 21 flows down from an outer periphery of the body portion (protruding end) of the second braking plate 26 flow into the container.

上述第三制流板27,其内周面(端部边缘)形成为Z字形状,控制由第一制流板25或第二制流板26制流而流下的饮料原水、或通过第一制流板25的各个贯通孔25a的饮料原水的流动,使之以薄膜状且瀑布状从该第三制流板27的内周部(突出端)向容器体21的内部空间中流下。 The third system stream plate 27, the inner peripheral surface (end edge) is formed as a Z-shape, a control beverage prepared raw water stream 26 from the first system or the second system stream flow plate 25 and flow down the plate, or the first flow basis beverage flow plate the through holes 25a of the raw water 25, so that a thin film-like shape, and falls in the interior space 21 flows down from the inner periphery of the body portion (protruding end) of the third braking plate 27 flow into the container.

上述水位检测部28由玻璃或树脂等光透过性材料制成,包括:长度方向沿上下方向被附设在容器体21的外周面上的导入管28a;和,在导入管28a附近的容器体21外周面上以上下并列设置的两个水位传感器28b、28c。 The water level detection unit 28 is made of a light transmissive material such as glass or resin, comprising: a longitudinal direction in the vertical direction is attached to the container body outer peripheral surface of the introduction tube 21, 28a; and a container body 28a in the vicinity of the inlet tube the outer peripheral surface 21 above the water level sensor under two juxtaposed 28b, 28c.

上述导入管28a的上端部以及下端部与容器体21内连通,该导入管28a内的液面位置根据容器体21内的水位而升降,上述水位传感器28b、28c检测上述液面位置。 An upper portion and a lower portion of the inner container body 21 communicates with the introduction pipe 28a, the liquid level 28a within the raised and lowered according to the water level within the container body 21 of the introduction pipe, the water level sensor 28b, 28c to detect the liquid level position.

利用该水位检测部28,当容器体21内的水位上升时导入管28a内的液面位置也上升,当其被上侧的水位传感器28b检测到时,判断为容器体21内的水位超过上限,供给阀22c的开度被调整,增加氧气供给量。 By using the water level detection unit 28, when the water level in the container body 21 rises the liquid level within the inlet tube 28a rises, the water level sensor when it is detected by the upper side 28b, it is determined that the water level in the container 21 exceeds an upper limit thereof , the opening degree of the supply valve 22c is adjusted to increase the amount of oxygen supply. 由此,容器体21内的氧气压力变高,供给到外部的供给量变多,容器体21内的水位下降。 Thus, the oxygen pressure inside the container body 21 increases, the supply amount is supplied to the outside more than the water level in the container body 21 is lowered.

另一方面,当容器体21内的水位下降时导入管28a内的液面也下降,当其被下侧的水位传感器28c检测到时,判断为容器体21内的水位超过下限,供给阀22c的开度被调整,减少氧气供给量。 On the other hand, when the water level drops in the container body 21 in the introducing pipe 28a is also lowered level, when the water level sensor 28c which is the lower side is detected, it is determined that the water level in the container body 21 than the lower limit, the supply valve 22c the opening degree is adjusted, the amount of reduced oxygen supply. 由此,容器体21内的氧气压力变低,供给到外部的供给量变少,容器体21内的水位上升。 Thus, the oxygen pressure inside the container body 21 becomes low, less supply amount supplied to the outside, the water level in the container body 21 rises.

这样,利用该氧溶解处理设备20,首先,通过供给管22b以及第一给水管23a将氧气从氧供给源22a供给到容器体21内,容器体21内部成为大气压以上的氧气环境。 Thus, by using the processing device 20 of dissolved oxygen is first supplied through the supply pipe 22b and the first feed pipe 23a oxygen from the oxygen supply source 22a to the container body 21, the interior of the container body 21 is above atmospheric oxygen atmosphere.

接着,当利用泵装置23e将用添加处理设备15处理过的饮料原水(氧溶解前的水)供给到第二给水管23b时,被供给的饮料原水流通第二给水管23b内之后,在第一给水管23a内与由供给管22b供给的氧气混合,边相互接触边在该第一给水管23a内流通,从其吐出口23c与氧气一起被吐出。 When Subsequently, when the pump device 23e will be treated with the added processing device 15 the beverage raw water (water pre-dissolving oxygen) supplied to the second water supply pipe 23b, the beverage raw water is supplied after the second to the inner pipe 23b flow in the first to a pipe 23a is mixed with the oxygen gas supplied from the supply tube 22b, the side edge contact with each other to flow within the first pipe 23a, 23c together with the oxygen is discharged from the discharge port.

被吐出的饮料原水以喷水状(以吐出口23c为中心的放射状)向顶部方向喷出(参照图6箭头C1),由于吐出口23c的内径比第一给水管23a的其它部分的内径小,所以被喷出的饮料原水在吐出时压力变高且其流速变快,以大范围的放射状猛喷出来。 The beverage is discharged raw water spray shape (in radial discharge port 23c as the center) is ejected (refer to FIG. 6 the arrow C1) toward the top, since the inner diameter of the discharge outlet 23c other than the first supply pipe portion 23a of the inner diameter of the small Therefore the beverage is discharged at a discharge pressure of the raw water is high and the flow rate becomes faster, radially ejected to a wide range of fierce.

然后,从吐出口23c喷出的饮料原水冲击到容器体21的顶部表面或内周面,或沿该顶部表面或内周面流动到下方(参照箭头C2)、或弹回(没有图示)、或沿第一给水管23a的外周面流动到下方(没有图示),然后,由第一制流板25控制其流动,以薄膜状且瀑布状从该第一制流板25的贯通孔25a向容器体21的内部空间中流下(参照箭头C3以及C4)。 Then, the impact from the beverage raw water discharge port 23c is discharged to the top surface or the inner circumferential surface of the container body 21, or along the top surface or the inner peripheral surface of the lower flow (see the arrow C2), or springing (not shown) , or along the outer circumferential surface of the first pipe 23a to flow to the bottom (not shown), and then, the flow control system from a first flow plate 25, a thin film-like shape, and the through-hole falls from the first flow plate 25 is made of 25a flow into the interior space of the container body 21 (see the arrows C3 and C4).

接着,被第一制流板25制流而流下的饮料原水、或弹回且通过第一制流板25的各贯通孔25a的饮料原水,由第二制流板26控制其流动,以薄膜状且瀑布状,从该第二制流板26的外周部向容器体21的内部空间中流下(参照箭头C5)。 Subsequently, plate 25 is made of a first system stream and the stream of raw water stream beverage, a beverage or bounce and raw water through the through holes 25 of the plate 25a of the first stream produced by the second flow system the flow control plate 26, a thin film waterfall shape and body portion from an outer periphery of the second flow plate 26 made of the internal space of the container 21 in flow (see arrow C5).

之后,被第一制流板25或第二制流板26制流而流下的饮料原水、或弹回且通过第一制流板25的各贯通孔25a的饮料原水,由第三制流板27控制其流动,以薄膜状且瀑布状从该第三制流板27的内周部向容器体21的内部空间中流下(参照箭头C6),并贮存在容器体21的底部。 Thereafter, the system 26 is made of a first flow stream flow plate 25 or second plate made of the raw water flowing down drinks, beverages or bounce and raw water through the through holes 25 of the plate 25a of the first system stream by the system stream of the third plate 27 controls the flow to form a film-like body and falls from the inner peripheral portion of the third plate 27 made flow into the interior space 21 of the container flow (see arrow C6), and stored at the bottom of the container body 21.

而且,这样的饮料原水的在第一给水管23a内以及容器体21内的流动过程中,接触到该饮料原水的氧溶解在其中。 Moreover, such a beverage raw water in the first water supply pipe 23a and the flow of process within the container body 21 in contact with the beverage raw water oxygen dissolved therein.

由此生成具有如下特征的饮料水,即:氧溶存量从该处理前的6~8mg/l提高到25~70mg/l的高氧浓度;而且瓶子开封后即使经过24小时氧溶存量仍保持在15mg/l以上、更优选保持在35mg/l以上。 Thereby producing drinking water with the following characteristics, namely: the amount of dissolved oxygen increased from 6 ~ 8mg before the process / l to the high oxygen concentration 25 ~ 70mg / l; and after the opening of the bottle even after 24 hours the amount of dissolved oxygen remained at 15mg / l or more, and more preferably is maintained at 35mg / l or more. 这被认为是:在高压氧气环境下,当水分子和氧分子接触时,它们的一部分离子化,该水分子和氧分子通过离子键而成为结合的状态使氧溶解于水中,所以通过这类离子键,可以得到高氧浓度且氧溶存量难以降低的功能水。 This is considered to be: an oxygen atmosphere at high pressure, when in contact with water molecules and oxygen molecules, ionized portion thereof, the water and oxygen molecules by ionic bonds to a state bound to the oxygen dissolved in water, so that through such ionic bond, can be obtained a high amount of dissolved oxygen concentration and the oxygen is difficult to reduce the functional water.

然后,贮存于容器体21的饮料水(氧溶解后的水)通过容器体21内部的氧气压力,从第三给水管24被供给到外部(上述填充处理设备16)。 Then, the beverage stored in the container body of water (water of dissolved oxygen) 21 through the oxygen pressure inside the container body 21, 24 is supplied from the third water supply pipe to the outside (the filling processing device 16).

贮存于容器体21内的饮料水的水位,当超过其上限或下限时由水位检测部28检测,当水位超过上限时,导入管28a内的液面位置由上侧的水位传感器28b检测;当水位超过下限时,通过下侧的水位检测器28c检测。 Drinking water stored in the water level inside the container body 21, when it exceeds the upper or lower limit by the detecting unit 28 detects the water level when the water level exceeds the upper limit, the liquid level within the inlet tube 28a 28b is detected by the water level sensor on the upper side; when limit water level exceeds, by a lower level detector 28c detected.

这样,当水位超过一定限度而被水位传感器28b、28c检测到时,调整供给阀22c的开度来调整氧气供给量,由此,调整容器体21内的氧气压力调整供给到外部的供给量,使容器体21内的氧气和饮料水的比率维持在一定范围内。 Thus, when the water level exceeds a certain limit level sensor is 28b, 28c when the detected degree of opening adjustment valve 22c is supplied to adjust the supply amount of oxygen, thereby adjusting the oxygen pressure in the container body 21 to adjust the supply amount supplied to the outside, oxygen and drinking water in the container body 21 to maintain the ratio within a certain range.

另外,第一以及第二给水管23a、23b和第三给水管24被形成为:第三给水管24的内径D2相同于或小于第一以及第二给水管23a、23b的内径D1,所以容器体21内的饮料水难以被供给到外部(饮料水容易贮存在容器体21内),容器体21内部的氧气压力被提高到更高的压力。 Further, the first and second water supply pipe 23a, 23b, and a third water supply pipe 24 is formed as follows: the inner diameter D2 of the third water supply pipe 24 is the same as or smaller than the first and second water supply pipe 23a, the inner diameter D1 23b, so that the container in the drinking water 21 is supplied to the outside is difficult (readily drinking water stored in the container body 21), the interior of the container body 21 is increased oxygen pressure to a higher pressure.

另外,当氧溶解于饮料原水中时,原来所含有(已溶解有)的氮等气体根据亨利法则从该饮料原水中被放出,所以容器体21内的氧浓度逐渐降低,饮料原水的氧溶解量降低。 Further, when the oxygen dissolved in the beverage raw water originally contained (dissolved there) such as nitrogen gas in accordance with the Henry's Law is discharged from the beverage raw water, the oxygen concentration inside 21 of the container body is gradually decreased dissolved oxygen beverage raw water the amount is reduced. 因此,容器体21内的氧气浓度应该维持在一定值以上,定期排出容器体21内的氮气等气体。 Thus, the oxygen concentration in the container body 21 should be maintained above a certain value, such as nitrogen gas is periodically removed in the container body 21.

具体地,首先,关闭供给阀22c停止将氧气供给到容器体21内,之后,打开排气管29的排气阀29a使容器体21内部和外部连通。 Specifically, first, closing the supply valve 22c stop supplying oxygen to the container body 21, after opening the exhaust valve of the exhaust pipe 29a of the container body 21 communicates the inside and outside. 由此,容器体21内部的气体压力降低到与大气压相等的压力,贮存在容器体21内的饮料水不会从第三给水管24供给到外部。 Accordingly, the gas pressure inside the container body 21 is reduced to a pressure equal to atmospheric pressure, storage of drinking water in the container body 21 is not supplied from the third water supply pipe 24 to the outside.

接着,进一步从各给水管23a、23b供给饮料原水到容器体21内,使该容器体21内的水位上升,将容器体21内的气体从排气管29排出到容器体21外部。 Subsequently, further 23a, 23b is supplied to each of the beverage from the raw water pipe 21 to the container body so that the water level in the container body 21 rises, the gas in the container body 21 is discharged from the exhaust pipe 29 to the outside of the container body 21.

如上述那样,通过氧溶解处理设备20使氧溶解于饮料原水而生成饮料水,接着,上述填充处理设备16将由该氧溶解处理设备20的第三给水管24供给的饮料水填充于规定容量的瓶内后密封。 As described above, 20 the oxygen through the oxygen dissolving processing apparatus to generate drinking water dissolved in the beverage raw water, then the filling processing apparatus 16 by the drinking water of the oxygen dissolution treatment apparatus 20 of the third water supply pipe supplied 24 is filled to a predetermined volume sealed bottle.

如果利用这样构造的饮料水制造装置1,首先,通过净化处理设备11,以第一过滤处理部12、第二过滤处理部13以及逆浸透处理部14的顺序依次处理、净化饮料原水;接着,由添加处理设备15将维生素、矿物质以及氨基酸等添加到用净化处理设备11净化过的饮料原水中;接着,由氧溶解处理设备20,用添加处理设备15添加了维生素、矿物质以及氨基酸等的饮料原水,生成高浓度地溶解有氧的饮料水;然后,由填充处理设备16将在氧溶解处理设备20中生成的饮料水填充于瓶内后密封,制造瓶装饮料水。 If the use of drinking water production apparatus 1 thus constructed, first of all, 11, the first order filter processing unit 12, a second filter processing portion 13, and a reverse osmosis processing unit 14 sequentially processed through purification equipment, purified raw drink water; then, 15 vitamins, minerals and amino acids added by the processing device to add the cleaned with purified drink raw water processing apparatus 11; Next, the processing device 20 of dissolved oxygen, adding processing apparatus 15 with added vitamins, minerals and amino acids, etc. beverage raw water to generate a high concentration of oxygen dissolved drinking water; then, by the processing device 16 will fill the post-processing apparatus 20 was dissolved in water to generate a beverage filled in a sealed bottle in an oxygen, producing water bottled drinks.

这样,由该饮料水制造装置1制造的本实施例的饮料水在密封状态下氧溶存量为高浓度,另外,即使瓶子开封后与空气接触,开封后在经过上述规定时间以前也保持高氧浓度的状态,所以当想饮用该饮料水时就可饮用想饮用的量,同时,即使任何时候饮用也都可以摄取能够得到上述那样的效果的充分量的氧。 Thus, the manufacturing of the drinking water production apparatus 1 of the drinking water to an embodiment in a sealed state oxygen dissolved amount high concentration, in addition, even after the bottle unsealing contact with air, after opening remains high oxygen before the time elapses the predetermined the amount of concentration state, when you want to drink the beverage for drinking like drinking water can, while even drinking any time can also be taken as described above can be obtained an effect of a sufficient amount of oxygen. 由此,该饮料水适宜饮用,可更进一步提高其商品价值。 As a result, the beverage suitable for drinking water, can further enhance its commercial value.

另外,由于是用净化处理设备11净化的、几乎没有混入杂质的饮料原水,且是由用添加处理设备15添加了维生素、矿物质以及氨基酸等的饮料原水制造的,所以可更进一步提高商品价值。 Further, since the purification apparatus 11 purification with beverage impurities in raw water hardly mixed, and is composed by adding processing apparatus 15 added vitamins, minerals and amino acids such as beverage raw water made, it is possible to further improve the commercial value of .

另外,上述饮料水制造装置1除可适当制造这类饮料水之外,还具有以下所述的优点。 Further, the apparatus 1 for producing drinking water in addition to producing such beverages may suitably water, also has the advantage described below.

即,从吐出口23c以放射状喷出饮料原水,增大该饮料原水与氧气的接触面积;同时,由各制流板25、26、27控制饮料原水的流动,使该饮料原水以薄膜状且瀑布状从该各制流板25、26、27向容器体21的内部空间中流下,使饮料原水从水膜的两侧与氧气接触;另外,还提高容器体21内部的氧气压力;所以,能够使更多的氧有效地溶解于该饮料原水中,能够有效地生成如上述那样高氧浓度、且氧溶存量难以降低的饮料水。 That is, 23c radially beverage discharged from the discharge port of the raw water, the raw water to increase the contact area of ​​the beverage and oxygen; the same time, the flow plate 26, 27 made by the raw water flow control beverage, the beverage so that the raw water to form a film, and waterfall-like body made from the respective flow plates 26, 27 flows down into the container interior space 21, the beverage raw water into contact with oxygen from the water film on both sides; in addition, further increase the oxygen pressure inside the container body 21; therefore, possible to more effectively dissolve oxygen in the beverage raw water, it can be efficiently produced as described above, a high oxygen concentration, the amount of dissolved oxygen and drinking water is difficult to reduce.

另外,虽然在容器体21内设置有各个制流板25、26、27,但饮料原水的落下流量不会受它们的限制,所以能够有效地处理大量饮料原水的同时,在排出氮气等气体时,能够使容器体21内的水位迅速上升,迅速地排出该气体。 Further, although in the container body 21 is provided with a respective plate 26, 27 made of the flow, but the flow of beverage falling raw water is not limited by them, it is possible to efficiently handle a large number of raw water while the beverage, such as nitrogen gas when discharging allows the water level within the container body 21 rises rapidly, the gas is quickly discharged.

另外,将用净化处理设备11净化过的饮料原水供给到容器体21,由于没有垃圾等异物阻塞第一制流板25的各贯通孔25a或各个制流板25、26、27之间的间隙,所以没有必要进行除去异物的操作,可降低维护成本,同时,没有必要为了去除异物而使容器体21的结构成为可拆卸的容器,因此可简化容器体21的结构、降低制造成本、且提高容器体21的气密性。 Further, the purified processing apparatus 11 with purified raw water is supplied to the beverage container 21, since there is no foreign matter such as rubbish clogging the gap between the flow plate 26, 27 made of the first through holes 25 or 25a of the respective plate made stream there is no need for foreign matter removal operation, reducing maintenance costs, at the same time, it is not necessary to remove impurities in the container structure 21 becomes detachable container body, the structure 21 of the container body can be simplified, reducing manufacturing costs, and increase airtight container body 21.

另外,通过设置多个制流板25、26、27以增加饮料原水的制流次数,使饮料原水的流动状态发生变化,提高该饮料原水和氧气的接触次数,由此,可更有效地溶解氧。 Further, by providing a plurality of baffles 26, 27 made to increase the number of beverage raw water flow system, the flow state of the beverage raw water changes, increase the number of contacting the beverage raw water and oxygen, thus, can be more effectively dissolve oxygen.

另外,由于以Z字形状形成第二制流板26的外周面以及第三制流板27的内周面,所以加长了该外周面以及内周面的周长、增大了以薄膜状且瀑布状从第二制流板26以及第三制流板27流下的饮料原水的表面积、增大了饮料原水与氧气的接触面积,可有效地使更多的氧溶解于该饮料原水中。 Further, since a Z-shaped plate forming a second stream made inner circumferential surface of the outer peripheral surface 26 of the plate 27, and a third system stream, it is lengthened and the outer peripheral surface of the inner circumferential surface of the perimeter, and increases the form of a film waterfall from the raw water and the surface area of ​​the third beverage flow plate 27 made of a second system stream flow plate 26, increases the contact area beverage raw water and oxygen, may be more effective to oxygen dissolved in the raw water beverage.

另外,由于使容器体21的上部形成为向外侧突出的球状弯曲面,所以能够使从吐出口23c吐出的、冲击到容器体21顶部的饮料原水沿该顶部内表面流向第一制流板25侧,由该第一制流板25控制其流动使之向容器体21的内部空间中流下,能够提高该饮料原水的氧溶解量。 Further, since the upper portion of the container body 21 is formed projecting outward spherically curved surface, it is possible to from the discharge port 23c discharged, the impact to the beverage raw water at the top of the container body 21 in the first system stream plate surface of flow direction within the top 25 side, so that the first flow produced by the plate 25 controls the flow of the stream in the interior space 21 of the container body, the amount of dissolved oxygen can be enhanced beverage raw water.

另外,将第一给水管23a的上端面配置在容器体21内的上部侧,在容器体21内的上部侧使饮料原水从吐出口23c吐出,所以能够使从吐出口23c吐出后直至被贮存于容器体21底部的、饮料原水的流动距离加长,可更进一步提高该饮料原水的氧溶解量。 Further, the upper face of the first water supply pipe 23a is disposed in the upper portion 21 of the container body side, the beverage raw water at the upper side of the inner 21 of the container body is discharged from the discharge port 23c, it is possible to until it is stored from the discharge port 23c discharged at the bottom of the container body 21, the flow of raw water from the beverage is lengthened, the amount of dissolved oxygen can be further improved beverage raw water.

另外,第三给水管24的内径D2被构成为相同或者小于第一以及第二给水管23a、23b的内径D1,所以难以将贮存于容器体21内的饮料水供给到外部,可更进一步提高容器体21内的氧气压力,可有效地使更多的氧溶解于流动于该氧气环境中的饮料原水。 Further, the third tube 24 to the inner diameter D2 of the same is configured as a beverage or smaller than the first and second water feed pipe inner diameter D1 23a, 23b, it is difficult to be stored in the container body 21 is supplied to the outside can be further improved oxygen pressure inside the container body 21, can be more effectively dissolved oxygen in the beverage flow to the raw water in the oxygen atmosphere.

另外,即使容器体21内的氧气压力因任何理由而上升,容器体21内的水位也难以下降,所以可有效地防止该水位下降到低于第三给水管24的吸入口24a而使容器体21内的氧气从第三给水管24泄漏到外部的不良情况。 Further, even if the oxygen pressure inside the container body 21 rises for any reason, the water level in the container body 21 is also difficult to decline, it is possible to effectively prevent the water level drops below a third of the water to the suction port 24a of the container body oxygen in the third from 21 to 24 water leakage to the outside of the bad situation.

另外,混合饮料原水和氧气并使之相互接触,一边使氧溶解于饮料原水中,一边使之在第一给水管23a内向吐出口23c侧流动,所以可有效且大量地使氧溶解于饮料原水中。 Further, the raw water mixed drinks and oxygen and make contact with each other, while the oxygen dissolved in raw water in the beverage, thereby being discharge-side flow outlet 23c within the first water supply pipe 23a, it is possible to efficiently and a large amount of oxygen dissolved in the beverage raw water.

另外,吐出口23c的内径被构成为小于第一给水管23a的其它部分的内径,所以可提高饮料原水吐出时的压力且提高其流速,使从吐出口23c吐出的饮料原水以更大范围的放射状分布,可更有效且大量地使氧溶解于饮料原水,或可更有效且大量地使在第一给水管23a内与饮料原水混合的氧溶解于该饮料原水中。 Further, the inner diameter of the discharge port 23c is configured to be less than the first water tube inner diameter of the other portions 23a, it can increase the pressure of the beverage raw water discharge and increase its flow rate, so that from the beverage raw water discharge port 23c discharged to a greater range of radially distributed, it may be more efficiently and a large amount of oxygen dissolved in raw water, beverage, or more efficiently and in large numbers so that in the first water supply pipe 23a is mixed with the beverage raw water oxygen dissolved in the raw water beverage.

另外,将第一给水管23a配置在与容器体21同轴的位置上,所以可使从吐出口23c吐出的饮料原水均匀分散地在容器体21内流下,可有效地进行该处理。 Further, the first water supply pipe 23a coaxially disposed at a position 21 on the container body, the can is discharged from the discharge port 23c of the raw water is uniformly dispersed beverage in the container body 21 flow, the process can be efficiently performed.

以上,说明了本发明的一实施方式,但本发明所能采用的具体方式并不受该方式的任何限制。 Above, one described embodiment of the invention, but the specific embodiment of the present invention can be employed in no way restricted to the embodiment.

例如,在上例中,使氧溶解于饮料原水并生成饮料水时使用了氧溶解处理设备20,但并不限定于此,也可使用如图7~图9所示的氧溶解处理设备40。 For example, in the embodiment, dissolved oxygen using a dissolved oxygen in the beverage processing device 20 and generates raw water drinking water, but is not limited thereto, and may be used in FIG. 7 to FIG oxygen dissolution processing apparatus 940 shown in FIG. . 另外,图7是表示本发明的其它实施方式的氧溶解处理设备的简要构成的断面图,图8是沿图7中的箭头DD方向的断面图,图9是用于说明本发明的其它实施方式中的水流的说明图。 Further, FIG. 7 is a sectional view showing a schematic oxygen dissolution processing apparatus to another embodiment of the present invention is constituted, FIG. 8 is a sectional view in the direction of arrow along DD in FIG. 7, FIG. 9 is a view for explaining another embodiment of the present invention. FIG manner as described in flow.

如图7所示,上述氧溶解处理设备40是不同于上述氧溶解处理设备20中的氧供给部22、水供给部23、第三给水管24以及各个制流板25、26、27的设备,对于与氧溶解处理设备20相同的构成部分标记相同符号,省略其详细说明。 7, the processing apparatus 40 of the oxygen dissolved oxygen dissolution is different from the processing apparatus 20, the oxygen supply unit 22, a water supply unit 23, a third water supply pipe 24 and the respective braking device 25, 26 of the flow plate , for oxygen dissolution treatment apparatus 20 the same components the same reference numerals, detailed description thereof will be omitted.

如图7以及图8所示,上述氧溶解处理设备40具备:上述容器体21、将氧气供给到容器体21内的氧供给部41、上述压力检测器(没有图示)、将饮料原水供给到容器体21内的水供给部42、将容器体21内的饮料水供给到外部的给水管(第二给水管)43、配置于容器体21内的上部位置的第一以及第二制流板44、45、和上述水位检测部28。 7 and 8, of the oxygen dissolution treatment apparatus 40 includes: the container body 21, the supply of oxygen 41 to the pressure detector (not shown) in the oxygen supply portion 21 of the container body, raw water supplied to the beverage the water supply to the container body 21 of the inner portion 42 of the drinking water in the container 21 is supplied to an external water supply pipe (a second pipe) 43 made of the first and second upper position in the fluid 21 disposed in the container body plates 44, 28 and the water level detection unit.

上述氧供给部41包括:上述氧供给源22a;一端侧连接于氧供给源22a、另一端侧连接于容器体21的上部的供给管41a;上述供给阀22c;连通容器体21内部和外部的排气阀41b。 Said oxygen supplying section 41 comprises: the above-described oxygen supply source 22a; one end side is connected to an oxygen supply source 22a, and the other end side is connected to supply the upper portion of the container body 21 of the tube 41a; the supply valve 22c; communication with the container body 21 inside and outside exhaust valve 41b. 通常,供给阀22c被控制处于以规定的开度打开的状态,排气阀41b被控制处于关闭的状态。 Typically, supply valve 22c is controlled to a predetermined opening degree in the opened state, the exhaust valve 41b is controlled in a closed state.

上述水供给部42具备:一端侧从容器体21的底部外周面被贯入到其内部,在容器体21的中央部弯曲成L字形状向该容器体21的上部延长设置的第一给水管42a;和,连接于第一给水管42a的另一端侧的上述泵装置23e。 The water supply unit 42 includes: the container body from one end side outer circumferential surface 21 of the bottom portion penetrates into the inside thereof is, in the central portion of the container body 21 is bent into an L-shaped water supply pipe to the upper portion of the container body 21 of the first set extended 42a; and, connected to the first water pipe 42a to the other end side of the pump means 23e.

上述第一给水管42a具备其上述一端(上端)与容器体21内的顶部表面相距规定间隔配置的、在该上端面开口的吐出口42b,该吐出口42b向容器体21内的顶部方向开口,向该顶部方向吐出饮料原水。 The first feed pipe 42a provided in the top surface of the one end 21 thereof (upper end) of the container body is spaced a predetermined distance, the upper end opening of the discharge port 42b, 42b of the discharge port 21 in the direction of the top opening of the container body to the top of the beverage raw water discharge direction. 另外,未图示的逆止阀设置于第一给水管42a,通过该逆止阀(没有图示)防止供给到容器体21内的饮料原水的逆流。 Further, a check valve (not shown) provided on the first water supply pipe 42a, to prevent the beverage in the raw water supplied to the container body 21 through the backflow check valve (not shown).

上述第二给水管43,其一端侧从容器体21的底部外周面被贯入到其内部,在容器体21内弯曲成L字形状向该容器体21的底面方向延长设置,通过该容器体21内部的氧气压力,将贮存于容器体21内底部的饮料水(溶解有氧的水)供给到容器体21外部。 The second water supply pipe 43, one end side of the outer periphery of the bottom surface 21 of the container body is from penetration into its inside, bent into an L-shape to the direction of the bottom surface of the container body 21 is extended in the container body 21 is provided, through which the container body 21 oxygen pressure inside the drinking water stored in the inner bottom of the container body 21 (the water dissolved oxygen) is supplied to the outside of the container body 21.

另外,第二给水管43具备:其上述一端(下端)与容器体21的底面相距规定间隔配置的、在该下端面开口的、用于将饮料水供给到外部的吸入口43a。 Further, the second water supply pipe 43 includes: the one end thereof (lower end) of the bottom surface of the container body 21 is disposed a predetermined distance apart, in the lower end surface of the opening for the drinking water supplied to the outside of the suction port 43a. 另外,第二给水管43被构成为其内径D2相同于或小于第一给水管42a的内径D1。 Further, the second water supply pipe 43 constitutes an inner diameter D2 is the same as or less than the first inner diameter D1 42a of the pipe.

上述第一制流板44由平板且环状的部件构成,其外周面被嵌插固定于容器体21的上部内周面上,并被配置于与第一给水管42a的上端约同等高度位置上,控制沿容器体21的内周面流动的饮料原水、或冲击到容器体21的顶部而弹回的饮料原水的流动,使之以薄膜状且瀑布状从该第一制流板44的内周部向容器体21的内部空间中流下。 The first system stream is composed of flat plate 44 and the annular member is fitted into the outer peripheral surface fixed to the inner periphery of the upper surface of the container body 21, and is disposed at approximately the same height position of the upper end of the first water supply pipe 42a on the control direction of the container body of the beverage raw water in the circumferential surface 21 of the flow, or shock to the beverage raw water flow top 21 of the container body and spring back, so that a thin film shape, and a waterfall from the first system stream plate 44 the inner circumferential portion flows down into the interior space of the container body 21.

上述第二制流板45同样由平板且环状的部件构成,其内周面被嵌插固定于第一给水管42a的上端侧外周面上,并被配置于第一制流板44的下方,控制沿第一给水管42a的外周面流动的饮料原水、或冲击到容器体21的顶部而弹回的饮料原水的流动,使之以薄膜状且瀑布状从该第二制流板45的外周部向容器体21的内部空间中流下。 And the second flow system is constituted by the same plate 45 and an annular plate member which is fitted into the inner circumferential surface of the first water supply pipe fixed to the outer circumferential surface 42a of the upper side, and is disposed below the first plate 44 made of stream the control along a first feed pipe outer peripheral surface 42a of the flow of beverage raw water, or an impact to a beverage raw water flowing through the top 21 of the container body and spring back, so that a thin film shape, and a waterfall from the second system stream plate 45 an outer circumferential portion flows down into the inner space of the container body 21.

这样,利用该氧溶解处理设备40,首先,由氧供给部41将氧气供给到容器体21内,容器体21内部成为大气压以上的氧气环境。 Thus, by using the processing apparatus of dissolved oxygen 40, first, the oxygen supply from the oxygen supply unit 41 to the container body 21, the interior of the container body 21 is above atmospheric oxygen atmosphere. 接着,当利用泵装置23e将饮料原水(氧溶解前的水)供给到第一给水管42a时,被供给的饮料原水流通第一给水管23a内之后,由该吐出口42b被吐出到容器体21内。 Next, supplied to the first water supply time 42a when the pump device 23e beverage raw water (water pre-dissolved oxygen), the beverage raw water flows is supplied to the first to the following inner pipe 23a, from this discharge port 42b is discharged into the container body 21.

被吐出的饮料原水以喷水状(以吐出口42b为中心的放射状)向顶部方向喷出(参照图9箭头C11),冲击容器体21的顶部表面或内周面,或者沿该顶部表面或内周面流动到下方(参照箭头C12)、或者弹回(没有图示)、或者沿第一给水管42a的外周面向下方流动(参照箭头C13)。 The discharged beverage raw water in a spray form (to the discharge port 42b centered radially) is ejected toward the top (see Fig. 9 arrow C11), the impact of the container top surface or inner circumferential surface 21 thereof, or along the top surface or an outer circumferential surface of the inner periphery of the downward flow (see the arrow C12), or bounce (not shown), or along the first water supply pipe 42a flows downward facing (refer to arrow C13).

沿容器体21的内周面流动的饮料原水,之后由第一制流板44制流,以薄膜状且瀑布状,从该第一制流板44的内周部向容器体21的内部空间中流下(参照箭头C14);沿第一给水管42a的外周面流动的饮料原水,由第二制流板45制流,以薄膜状且瀑布状从该第二制流板45的外周部向容器体21的内部空间中流下(参照箭头C15)。 Beverage raw water along the inner circumferential surface of the container body 21 flow, after the first system stream by the system stream 44 plates, a thin film-like shape, and falls from the inner peripheral portion of the first flow plate 44 made of the interior space 21 of the container body under a stream (refer to arrow C14); beverage raw water along the outer circumference of the first water supply pipe 42a flows by the 45 system stream of the second system stream plate, a thin film shape, and cascades from an outer circumferential portion of the second braking flow plate 45 to the container body flows down (see arrow C15) in the inner space 21.

另外,上述弹回的饮料原水的大部分,没有由各制流板44、45控制其流动,向容器体21的内部空间中流下。 Further, the spring back most beverage raw water, there is no braking by the flow control plate 44, the flow, the inner space 21 flows down into the container body.

于是,流下氧气环境中的饮料原水贮存在容器体21的底部,贮存的饮料原水(氧溶解后的水,即,饮料水)因容器体21内部的氧气压力从第二给水管43被供给到填充处理设备16。 Then, under a stream of an oxygen atmosphere beverage raw water reservoir at the bottom of the container body 21, reservoir beverage raw water (the oxygen dissolved water, i.e. drinking water) due to the oxygen pressure in the interior 21 of the container body is supplied from the second supply pipe 43 to the filling processing device 16.

这样,用该氧溶解处理设备40也能得到与上述氧溶解处理设备20同样的效果,即:能将饮料原水从吐出口42b以放射状喷出,同时,可使沿容器体21的内周面以及第一给水管42a的外周面流动的饮料原水以薄膜状且瀑布状从各个制流板44、45流下,所以可生成高浓度地溶解了氧的饮料水等。 Thus, with the dissolution of oxygen processing apparatus 40 can obtain the same effects as the oxygen dissolution processing device 20, namely: a beverage can raw water discharged from the discharge port 42b radially, while the inner circumferential surface of the can body 21 in the container and a first beverage raw water pipe 42a to the outer circumferential surface of a thin film flowing from the waterfall shape and respective plates 44 made of the flow stream, it is possible to generate a high concentration of dissolved oxygen in the drinking water and the like.

另外,在上述氧溶解处理设备40中,上述第二制流板45也可以被构成为如图10以及图11所述的第二制流板46。 Further, the oxygen dissolved in the above-described processing apparatus 40, and the second flow plate 45 may be made be made form a second flow plate 11 as shown in FIG. 10 and 46.

如图10以及图11所示,上述第二制流板46被形成为平板且矩形状,同时,其外周面被形成为Z字形状,具备贯通其里外的多个贯通孔46a和在中央部形成的嵌插孔46b,在以薄膜状且瀑布状使饮料原水从外周部流下的同时,使饮料原水以多个水滴状从贯通孔46a滴下。 10 and 11, the second flow plate 46 is made of a flat plate formed in a rectangular shape and, at the same time, the outer peripheral surface is formed in a Z shape, comprising a plurality of through holes 46a penetrating in the outside thereof and in the central inserting-hole portion 46b is formed in a thin film shape, and cascades beverage raw water flows down from the outer peripheral portion, while a plurality of beverage raw water droplets dropping from the through-hole shape 46a.

上述贯通孔46a形成在以嵌插孔46b为中心的同心圆上,形成在内侧的贯通孔46a和形成在外侧的贯通孔46a在圆周方向的位置上分别交叉偏离地设置。 The through hole 46a is formed in the fitting hole 46b at the center of concentric circles, are formed inside the through hole 46a and the through hole 46a formed on the outer side intersect at a position deviated from the circumferential direction is provided.

另外,第二制流板46是,嵌插孔46b的内周面被外嵌固定于第一给水管42a的上端侧外周面上,四个角部被容器体21的内周面所支持,以相距规定间隔被配置于第一制流板44的上方位置上,在外周面和容器体21内周面之间形成间隙46c。 Further, the second plate 46 is a flow system, the inner circumferential surface of the fitting hole 46b is fitted around the outer peripheral surface of the pipe to the upper end 42a of the first side portion is supported by the four corners of the inner circumferential surface of the container body 21, arranged at spaced intervals above the predetermined position of the first flow plate 44 made on the outer peripheral surface of the container body and the gap 46c formed between the circumferential surface 21.

在具备这样结构的第二制流板46以及第一制流板44的氧溶解处理设备中,如下述那样,饮料原水流动于容器体21内。 Oxygen dissolved in stream processing apparatus of the second braking plate 46 having such structure is made of a first stream and a plate 44, as described below, the raw water flowing in the beverage container body 21.

即,以放射状被喷出的饮料原水(参照箭头C21)在之后冲击容器体21的顶部表面或内周面,或者沿该顶部或内周面向下方流动(参照箭头C22)、或者弹回(没有图示),或者沿第一给水管42a的外周面向下方流动(参照箭头C23)。 That is, in order to drink the raw water radially to be discharged (refer to arrow C21) after the impact the top surface or the inner peripheral surface of the container body 21, or along the top or inner peripheral surface flows downward (see arrow C22), or bounce (not shown), or to the outer periphery of the first flow tube 42a facing downward (see arrow C23).

于是,沿第一给水管42a的外周面流动的饮料原水、或弹回的饮料原水,在其后由第二制流板46制流,并以薄膜状且瀑布状从该第二制流板46的外周部流下,或者以多个水滴状从第二制流板46的贯通孔46a滴下(参照箭头C24)。 Thus beverage raw water, a first water supply pipe along the outer circumferential surface 42a of the flow, or springing beverage raw water, after which the second braking system stream flow plate 46, and a thin film-like shape, and falls from the second system stream plate an outer peripheral portion 46 of the stream, or a plurality of drop-shaped stream from the second braking plate 46a of the through hole 46 is dropped (refer to arrow C24).

另一方面,沿容器体21的内周面流动的饮料原水、弹回且通过间隙46c的饮料原水、以及由第二制流板46制流而流下的饮料原水,由第一制流板44制流,并以薄膜状且瀑布状从该第一制流板44的内周部流下(参照箭头C25)。 On the other hand, the inner periphery of the beverage raw water to flow along the surface 21 of the container body, bounce and raw water through the gap 46c of the beverage, and drink the raw water stream produced by the second system stream 46 flows down the plate, the first plate 44 made stream flow system, and a thin film-like shape, and a stream falls (see the arrow-C25) from the inner peripheral portion of the first plate 44 made stream.

即使这样构成并配置各个制流板44、46,也可以使从吐出口42b吐出的饮料原水以薄膜状且瀑布状从各制流板44、46的内周部或外周部流下,同时,也可以使之从贯通孔46a以多个水滴状滴下,所以可生成高浓度地溶解有氧的饮料水等,可得到与上述同样的效果。 Even with such configuration, and the configuration of each flow plate 44, 46 made of, it is also possible to form a thin film, and falls from the beverage raw water stream discharge port 42b discharged from the inner peripheral portion or the outer peripheral portion of each plate 44, 46 made of the flow, but also can make dropping from the through hole 46a at a plurality of teardrop-shaped, it can generate drinking water and other dissolved high concentration of oxygen, the same effects as described above can be obtained.

另外,如图12所示,在上述氧溶解处理设备20中,即使将两端面开口的筒状制流部件31以其轴线方向沿上下方向的方向配置于容器体21的顶面,也可以将从吐出口23c被吐出、沿该顶面流动的饮料原水,由制流部件31制流,并使之以薄膜状且瀑布状从该制流部件31的下端部向容器体21的内部空间中流下。 Further, as shown, of the oxygen dissolved in the processing apparatus 20, the tubular member made of the flow even if the end faces of the openings 31 in its axial direction is arranged in the vertical direction the top surface 12 of the container body 21, may be from the discharge port 23c is discharged, along the beverage raw water of the top surface of the flow, the system flow member 31 made of the flow, and allowed to form of a film and a waterfall-like body the inner space 21 from the lower end portion of the braking flow member 31 to the vessel shed. 另外,虽未图示,但这同样也适用于上述氧溶解处理设备40。 Although not shown, but the same applies to the processing apparatus 40 of dissolved oxygen.

另外,此时在平面图中,如果以Z字形状形成上述制流部件31的内周面,如上述那样,可加长该内周面的周长、可增大从制流部件31流下的饮料原水的表面积,可增大与氧气的接触面积,可有效地使更多的氧溶解于该饮料原水中。 Further, in a plan view at this time, if the inner circumferential surface forming the braking member in a Z-shaped flow 31, as described above, can be extended to the inner circumferential surface of the circumferential length can be increased beverage made from the raw water flow the flow member 31 surface area, can increase the contact area with oxygen, may be more effective to oxygen dissolved in the raw water beverage.

另外,在上例中,各个制流板25、26、27、44、45、46的配置位置没有特别限定,但优选配置于容器体21内的上部位置上。 Further, in the embodiment, the arrangement positions of the respective current collecting plate made 25,26,27,44,45,46 is not particularly limited, but is preferably disposed at an upper position within the container body 21 on. 例如,将制流板25、45、46配置于给水管23a、42a的上端,或配置于在小于吐出口23c、42b的约3倍内径值的范围内、位于该上端的下方的位置上,另外,优选将制流板27、44配置在高于吐出口23c、42b的上方位置。 For example, the system arranged at the upper end of baffles 25,45,46 water supply pipe 23a, 42a or disposed in a range 23c, 42b is about three times smaller than the inner diameter value of the discharge port at a position below the upper end of the upper, Further, the system is preferably arranged above the baffles 27, 44 position higher than the discharge port 23c, 42b of.

这样,从各制流板25、26、27、44、45、46流下后、到达至在容器体21贮存的饮料水的水面的落下距离可变长,所以可使更多的氧气与饮料原水接触并溶解于饮料原水中。 Thus, the flow from each of the braking plates 25,26,27,44,45,46 stream, the variable length to reach the surface of the water falling from the container body 21 of the storage of drinking water, oxygen and so enable more beverage raw water and dissolved in the beverage in contact with raw water.

另外,关于各制流板25、26、27、44、45、46之间的位置关系,可将任一方配置在上方侧或下方侧,另外,也可设置在约相同高度的位置上。 Further, regarding the positional relationship between the flow plates 25,26,27,44,45,46 made, can be disposed on either the upper side or the lower side, further, may be disposed at a position on approximately the same height.

而且,关于各制流板25、26、27、44、45、46的形状,例如,外周面或内周面的形状、贯通孔25a、46a的形状或形成位置等,也没有特别限定。 Further, each of the shape of the flow plates 25,26,27,44,45,46 made of, for example, the shape of the outer circumferential surface or inner circumferential surface of the through holes 25a, 46a formed in the shape or location, etc., is not particularly limited. 形成为Z字形状(锯齿状)的外周面或内周面的形状,也可以用光滑的曲线状,或矩形波状,或这些锯齿状、曲线状以及矩形波状的组合来代替该Z字形状。 Z shape to a shape (zigzag) or an outer circumferential surface of the inner circumferential surface may be curved with a smooth, wavy, or rectangular, serrated or these, a combination of curved and rectangular wave in place of the Z shape.

另外,各个制流板25、26、27、44、45、46的配置数目没有任何限定,既可以是没有设置该各个制流板25、26、27、44、45、46的一部分或全部的构造,也可以是设置了多于上例的多阶段的构造。 Further, the number of system streams each plate 25,26,27,44,45,46 arranged without any limitation may be a portion of the respective system without baffles or all 25,26,27,44,45,46 provided configuration, a configuration may be provided on more than multi-stage embodiment.

另外,给水管23a、42a的上端面优选设置在容器体21内的上部侧,这样可以使饮料原水在容器体21内的上部侧被吐出,所以从吐出口23c、42b被吐出后、直至贮存于容器体21底部的饮料原水的流动距离变长,可更进一步提高饮料水的氧溶解量。 Further, a pipe on the end surface is preferably set 23a, 42a in the container upper portion side of the inner member 21, this could make the beverage raw water in the container body upper portion side of the inner 21 is discharged, so that from the discharge port 23c, 42b is discharged until the reservoir beverage raw water to the bottom of the container body 21 of the flow distance becomes long, the amount of dissolved oxygen can be further improved in the drinking water.

另外,在上例中,将一根给水管23a、23b、42a设置于容器体21内,但也可以设置多根给水管23a、23b、42a。 Further, in the embodiment, the a water supply 23a, 23b, 42a disposed in the container body 21, but may be provided to a plurality of pipes 23a, 23b, 42a. 另外,给水管23a、23b、42a的内径D1除吐出口23c的部分以外其它部分被形成为固定内径,给水管24、43的内径D2形成为固定内径,但这些内径也可以以适当变化的方式形成。 Further, water supply 23a, 23b, 42a other than the inner diameter D1 of the outlet portion 23c of the other discharge portion is formed as a fixed inner diameter to the inner diameter D2 of the pipes 24 and 43 is formed as a fixed diameter, but the inner diameter may be appropriately changed in a manner form.

另外,在上例中,将容器体21的上部形成为向外侧突出的球状弯曲面,但并不限定于此,虽未图示但也可以形成为向内侧突出的球状弯曲面。 Further, in the embodiment, the upper portion of the container body 21 is formed to protrude outward spherically curved surface, but is not limited thereto, although not shown but may be formed into a spherically curved surface protrudes inward. 这样,能够使冲击容器体21顶面的饮料原水沿该顶面向容器体21的内周面侧,即,第一制流板25、44侧流动,可由该第一制流部件25、44制流而流下,所以可提高饮料水的氧溶解量。 Thus, it is possible that the beverage container body impact raw water of the top surface of the container 21 along the inner circumferential surface side of the body 21, i.e., the first system stream side of the flow plate 25, 44, may be made of the first flow member 25, 44 made stream flow, it is possible to increase the amount of oxygen dissolved in the drinking water.

另外,在上例中,在添加处理设备15中将维生素、矿物质以及氨基酸等添加到饮料原水中,但并不限定于此,也可以添加除这些维生素、矿物质以及氨基酸以外的其它成份。 Further, in the embodiment, the processing device 15 will add vitamins, minerals and amino acids added to the beverage raw water, but is not limited thereto, other ingredients may be added in addition to these vitamins, minerals and amino acids.

另外,其被构成为:通过添加处理设备15将维生素、矿物质以及氨基酸等添加到用净化处理设备11净化过的饮料原水中;但并不限定于此,也可以被构成为:由氧溶解处理设备使氧溶解于用净化处理设备净化过的饮料原水中,生成饮料水,之后,由添加处理设备将维生素、矿物质以及氨基酸等添加到该饮料水中,然后,由填充处理设备将该添加处理后的饮料水填充于瓶子内后密封。 Further, it is configured to: 15 vitamins, minerals and amino acids added to the purified purge processing apparatus 11 by the addition of a beverage raw water processing apparatus; not limited thereto, and may be configured as: a dissolved oxygen processing apparatus dissolved oxygen in the beverage with the purified raw water purification equipment to produce drinking water, then, added by the processing device to add vitamins, minerals and amino acids to the beverage water, then, added by the padding processing apparatus after sealing the beverage filled in the bottle of water after the treatment.

另外,氧溶解处理设备20、40的构造,仅仅是一个实例的构造的表示,并不限定于上述构造,另外,以图6、图9以及图11为基础而说明的饮料原水的流动(C1~C6、C11~C15、C21~C25)也只是一实例,这样的流动理所当然根据饮料原水的吐出量或吐出压力等而发生变化。 Further, the configuration of the oxygen dissolved in the processing apparatus 20, 40, is merely one example of the configuration is not limited to the above configuration, in addition to FIG. 6, FIG. 9 and FIG. 11 and the description based on the flow of raw water beverage (C1 ~ C6, C11 ~ C15, C21 ~ C25) is only an example, such flow course or the discharge pressure of the beverage discharge amount of the raw water or the like varies depending on.

另外,在上例中,列举饮料水作为功能水的一实例,但并不限定于此,该功能水也可用作医药品或化妆品等的原料,例如当使用于眼药或洗眼水、化妆水时,也能得到从眼或皮肤的表面吸收氧促进该部分的新陈代谢的效果。 Further, in the embodiment, the beverage include water as an example of the functional water, but is not limited thereto, the functional water may be used as raw materials of pharmaceuticals or cosmetics, for example, or when used in ophthalmic eyewash, makeup water, the effect of absorbing oxygen can be obtained from the eye or promote the metabolism of the skin surface portion.

于是,当该功能水作为医药品或化妆品等的原料时,例如用上述氧溶解处理设备20、40使氧高浓度地溶解于用上述净化处理设备11净化过的原水中,生成功能水,可将生成的功能水直接供给到医药品或化妆品的生产线,或可将生成的功能水填充于适当可搬式容器内供给。 Thus, when water is used as the functional raw materials of pharmaceuticals or cosmetics, for example, with the above-described processing apparatus 20,40 dissolved oxygen concentration of the oxygen dissolved in the highly purified by the above purification treatment apparatus 11 the raw water to produce functional water, can the functional water of functional water generated is directly supplied to the pharmaceutical or cosmetics production line, or may be generated in an appropriate filling may be supplied into the transport container.

另外,还可以用添加处理设备15将药物添加到该功能水中以制造眼药或洗眼水、化妆水等。 In addition, the drug can also be added 15 to the water to produce functional or ophthalmic eyewash, by adding makeup water or the like processing device.

Claims (15)

  1. 1.一种功能水,在原水中溶解了自然溶解浓度以上的氧,其特征在于,刚刚进行氧溶解处理后的氧溶存量为25~70mg/l,之后,在放置于大气中的状态下经过24小时后的氧溶存量保持在15mg/l以上。 A functional water, the oxygen dissolved in the raw water concentration of at least NATURAL dissolved, wherein the amount of dissolved oxygen immediately after the oxygen dissolution treatment is 25 ~ 70mg / l, then, after left in the air at state the amount of dissolved oxygen after 24 hours holding at 15mg / l or more.
  2. 2.如权利要求1所述的功能水,其特征在于,含有维生素、矿物质、氨基酸或药物之中的至少一种。 2. The functional water according to claim 1, characterized by containing at least one from among the vitamins, minerals, amino acids or drugs.
  3. 3.如权利要求1或2所述的功能水,其特征在于,被填充、密封于可搬式容器内。 Or the functional water according to claim 12, characterized in that, is filled, it may be sealed in the transport container.
  4. 4.一种功能水制造方法,其特征在于,将加压的氧气供给到密闭容器体内,使该密闭容器体内部成为大气压以上的氧气环境,同时,使原水吐出到所述密闭容器体内,通过使被吐出的原水在所述密闭容器体内以膜状流下,与氧气气液接触,生成溶解有25~70mg/l的氧的功能水,接着,从所述密闭容器体内取出生成的功能水。 A method for producing functional water, wherein the pressurized oxygen supply to the body of the closed vessel, the interior of the sealed container body becomes above atmospheric oxygen atmosphere, while the raw water is discharged into the closed container body, by the raw water to be discharged in the closed container body to a film under a stream of liquid in contact with oxygen, generating dissolved 25 ~ 70mg / l of oxygen functional water, then remove the functional water generated from the sealed container body.
  5. 5.如权利要求4所述的功能水制造方法,其特征在于,通过逆浸透处理净化所述原水,将净化后的原水供给到所述密闭容器体内。 5. The method for producing functional water according to claim 4, characterized in that the treatment by reverse osmosis of the raw water purification, purification of the raw water supplied to the hermetic container body.
  6. 6.如权利要求4所述的功能水制造方法,其特征在于,将维生素、矿物质、氨基酸或药物之中的至少一种添加到所述原水中之后,将该添加处理后的原水供给到所述密闭容器体内。 6. After the functional water producing method according to claim 4, wherein at least one added to the raw water in vitamins, minerals, amino acids or drugs, raw water is supplied to the adding process the hermetic container body.
  7. 7.如权利要求5所述的功能水制造方法,其特征在于,将维生素、矿物质、氨基酸或药物之中的至少一种添加到所述净化后的原水中后,将该添加处理后的原水供给到所述密闭容器体内。 After 7. The method of manufacturing a functional water according to claim 5, wherein at least one post-added to the raw water purified in vitamins, minerals, amino acids, or a drug, and the adding process raw water supplied to the hermetic container body.
  8. 8.如权利要求4或5所述的功能水制造方法,其特征在于,将维生素、矿物质、氨基酸或药物之中的至少一种添加到从所述密闭容器体内取出的功能水中。 8. A method for producing functional water according to claim 4 or claim 5, wherein at least one function is added to the water from the sealed container taken into the body of vitamins, minerals, amino acids or drugs.
  9. 9.如权利要求4~7的任一项所述的功能水制造方法,其特征在于,将从所述密闭容器体内取出的功能水填充于可搬式容器内后密封。 9. A method for producing a water feature as claimed in any one of claims 4 to 7, one of the, characterized in that the water withdrawn from the closed container in vivo function after filling the transport container can be sealed.
  10. 10.如权利要求8所述的功能水制造方法,其特征在于,将添加了维生素、矿物质、氨基酸或药物之中的至少一种的功能水填充于可搬式容器内后密封。 10. The method of manufacturing a functional water according to claim 8, characterized in that the addition of at least one of the functional water in vitamins, minerals, amino acids, or a drug may be filled within the sealed container conveyed.
  11. 11.一种功能水制造装置,其特征在于,具备:在原水中溶解自然溶解浓度以上的氧生成功能水的氧溶解处理设备部;和,将利用该氧溶解处理设备部生成的功能水填充于可搬式容器内后密封的填充处理设备部,所述氧溶解处理设备部具备:密闭容器体;具有连接于所述密闭容器体内的供给管、通过该供给管将氧气供给到所述密闭容器体内、使该密闭容器体内部成为大气压以上的氧气环境的氧供给单元;具有一端侧连接于所述密闭容器体内、在该密闭容器体内以上下方向配置、且在上端面形成了吐出口的第一给水管,从该第一给水管的吐出口向所述密闭容器体的顶部方向吐出所述原水的水供给单元;连接于所述密闭容器体内,且将贮存在该密闭容器体底部的所述功能水供给到外部的第二给水管;从所述密闭容器体的内面向内侧突出的第一制流部件以 A functional water producing apparatus comprising: dissolving oxygen dissolution unit processing apparatus NATURAL dissolved oxygen concentration or more generation of water in the raw water; and the use of the functional water generating unit processing apparatus for dissolving oxygen filled in the transport container can be sealed after filling unit processing apparatus, the processing apparatus of dissolved oxygen unit includes: closed container body; having a supply pipe connected to the closed container body, oxygen is supplied to the sealed container through the supply pipe in vivo the interior of the sealed container body to become oxygen supplying oxygen above atmospheric environment; having one end connected to the closed container body, disposed in at least the direction of the closed container body, and is formed on the end face of the first discharge port the closed casing is connected to the body, and the reservoir in the bottom of the closed container body; pipe, the raw water discharged from the discharge outlet of the first water supply pipe toward the top of the closed container body water supply means functional water supplied to the second pipe to the outside; protruding inward from an inner member of the first flow system of the body to the sealed container /或者从所述第一给水管的一端侧外周面向外侧突出的板状的第二制流部件,所述氧溶解处理设备部被构成为:使所述原水从所述吐出口向所述密闭容器体的顶部方向吐出,同时,使从该吐出口吐出的且顺着所述密闭容器体的内周面以及/或者所述第一给水管的外周面流动的原水从所述第一制流部件以及/或者第二制流部件的突出端向所述密闭容器体的内部空间中流下,从而使所述原水在所述密闭容器体内部与氧气进行气液接触生成所述功能水,所述填充处理设备部被构成为:将从所述氧溶解处理设备部的第二给水管被供给的功能水填充于所述可搬式容器内后密封。 / Or the second flow system member protrudes outwardly from one end side of the plate-like outer periphery of the first water supply pipe, the oxygen dissolution unit processing apparatus is configured to: cause the raw water from the spout to the closed discharging direction of the container body top, while the closed discharged from the discharge port and the inner circumferential surface of the container body along the raw water and / or the outer circumferential surface of the first tube to flow from the first flow system overhang member and / or the second member is made of the flow stream into the inner space of the closed container body, so that the raw water to generate the functional water gas-liquid contact inside the closed container with oxygen, the filling processing device unit is configured to: dissolving from the functional water processing device to a second portion of said oxygen supply pipe is filled in the inner container may be sealed after the transfer.
  12. 12.如权利要求11所述的功能水制造装置,其特征在于,还具备净化所述原水的逆浸透处理设备部,所述氧溶解处理设备部的水供给单元被构成为,使通过所述逆浸透处理设备部净化的原水从所述第一给水管的吐出口吐出。 12. The functional water production apparatus according to claim 11, wherein the processing apparatus further includes a reverse osmosis purification unit of the raw water, the oxygen dissolved water supply unit portion processing apparatus is configured so that by the a reverse osmosis purification unit processing apparatus from the first to the raw water discharge port of the discharge pipe.
  13. 13.如权利要求11所述的功能水制造装置,其特征在于,还具备将维生素、矿物质、氨基酸或药物之中的至少一种添加到所述原水中的添加处理设备部,所述氧溶解处理设备部的水供给单元被构成为,使通过所述添加处理设备部处理的原水从所述第一给水管的吐出口吐出。 13. The functional water producing apparatus 11 according to the oxygen claim, wherein, further comprising at least one additional processing device is added to the portion of the raw water in vitamins, minerals, amino acids, or a drug, dissolved water supply unit portion processing apparatus is configured so that by the addition processing unit processing apparatus discharged raw water from the first water supply pipe outlet.
  14. 14.如权利要求12所述的功能水制造装置,其特征在于,还具备将维生素、矿物质、氨基酸或药物之中的至少一种添加到通过所述逆浸透处理设备部净化过的原水中的添加处理设备部,所述氧溶解处理设备部的水供给单元被构成为,使通过所述添加处理设备部处理的原水从所述第一给水管的吐出口吐出。 14. The functional water production apparatus according to claim 12, wherein, further comprising at least one added to the purified processing apparatus through said reverse osmosis unit in the raw water vitamins, minerals, amino acids, or a drug adding processing device unit, said unit supplying water containing dissolved oxygen portion processing apparatus is configured so that by the addition processing unit processing apparatus raw water discharged from the discharge outlet of the first water supply pipe.
  15. 15.如权利要求11或12所述的功能水制造装置,其特征在于,还具备将维生素、矿物质、氨基酸或药物之中的至少一种添加到从所述氧溶解处理设备部的第二给水管被供给的功能水中的添加处理设备部,所述填充处理设备部被构成为,将通过所述添加处理设备部处理的功能水填充于所述可搬式容器内后密封。 Functional water production apparatus as claimed in claim 11 or 12, characterized by further comprising at least one added to the dissolved oxygen from the second portion of the processing apparatus from among the vitamins, minerals, amino acids, or a drug functional water, water is supplied to the adding device processing unit, a filling unit processing apparatus is configured to be filled in after the inner container is sealed by the formula transfer function of the water treatment unit to add processing apparatus.
CN 200510114791 2005-10-27 2005-10-27 Functional water and manufacturing method and device thereof CN1955123A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103288188A (en) * 2013-05-07 2013-09-11 沈礼群 Natural mineral-vitamin health-care drinking water purifying agent and preparation method and applications thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103288188A (en) * 2013-05-07 2013-09-11 沈礼群 Natural mineral-vitamin health-care drinking water purifying agent and preparation method and applications thereof

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