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JP4523015B2 - Water ion charge device - Google Patents
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JP4523015B2 - Water ion charge device - Google Patents

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JP4523015B2
JP4523015B2 JP2007124110A JP2007124110A JP4523015B2 JP 4523015 B2 JP4523015 B2 JP 4523015B2 JP 2007124110 A JP2007124110 A JP 2007124110A JP 2007124110 A JP2007124110 A JP 2007124110A JP 4523015 B2 JP4523015 B2 JP 4523015B2
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water
silver
storage tank
ionization
radium
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JP2008279332A (en
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秀行 岡本
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Buffalo Inc
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Melco Holdings Inc
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Description

本発明は、水のイオン電荷化装置に関する。   The present invention relates to an ion charge device for water.

水のイオン化装置が特許文献1に開示されている。この技術は、水の流出入口が形成された容器内にゼオライト等の多孔質鉱物とモナズ石等の希有元素類とトルマリンとを主成分とするイオン水生成体を収容し、水を容器に通水させることで、マイナスイオンの効果を発揮するとともに悪細菌を除菌できることを特徴としている。本発明は、前記の技術と同じように水のイオン電荷化と除菌を目的として成されたものである。
特開2007−50399号公報
A water ionization apparatus is disclosed in Patent Document 1. In this technology, an ion water generator mainly composed of porous minerals such as zeolite, rare elements such as monazite, and tourmaline is accommodated in a container in which an outflow port of water is formed, and water is passed through the container. It is characterized by being able to sterilize evil bacteria while exerting the effect of negative ions by making it water. The present invention has been made for the purpose of ionic charge and sterilization of water in the same manner as the above technique.
JP 2007-50399 A

本発明が解決しようとする課題は、水をイオン電荷化するとともに除菌できる水のイオン電荷化装置を提供することにある。   The problem to be solved by the present invention is to provide an ionization device for water that can ionize and disinfect water.

かかる課題を解決した本発明の構成は、
1) 貯水タンクの水を水路の途中に設けたイオン化部に通水して循環させながら電荷を帯びたイオン化する水のイオン電荷化装置において、前記貯水タンク内に銅製の改質部材を水と接触できる位置に設け、前記イオン化部が、ラジウム鉱石粉をセラミック化したラジウムセラミック体の周囲に電気石粉をセラミック化した電気石セラミック体を6個又は6の倍数の個数配置し、ラジウムセラミック体と電気石セラミック体の集合体と銀−亜鉛合金メッキ処理した銅板を交互に複数配置し、両端の銅板の外側面に磁石を互いが同じ極を向くように配置し、これらを水路の途中に収容した構造であることを特徴とする、水のイオン電荷化装置
2) 銀−亜鉛合金メッキの銀と亜鉛の重量比が7:3〜9:1の範囲である、前記1)記載の水のイオン電荷化装置
3) 前記1)又は2)記載の水のイオン電荷化装置を用いて貯水タンク内の水を除菌できるようにした、水の除菌装置
にある。
The configuration of the present invention that solves this problem is as follows.
1) In an ion charging device for ionizing charged water while circulating water in an ionization section provided in the middle of a water channel and circulating the water, a copper reforming member and water are placed in the water storage tank. Provided in a position where it can be contacted, the ionization portion is arranged around the radium ceramic body ceramicized radium ore powder, the tourmaline ceramic body obtained by ceramicizing the tourmaline powder 6 or a multiple of 6, and a radium ceramic body An assembly of tourmaline ceramic bodies and silver-zinc alloy-plated copper plates are placed alternately, and magnets are placed on the outer surfaces of the copper plates at both ends so that they face each other, and these are accommodated in the middle of the water channel. Water ion charging device 2) characterized in that the weight ratio of silver to zinc in the silver-zinc alloy plating is in the range of 7: 3 to 9: 1. I Emissions charge apparatus 3) wherein 1) or 2) the water in the water tank using the ionic charge apparatus for water according to allow sterilization, in sterilization apparatus of water.

本発明によれば、貯水タンクに水を貯水してポンプ等で汲み上げると、水はケース内へ流入してラジウムセラミック体・電気石セラミック体・銅板のメッキ面と触れ、その後貯水タンクへ戻されて循環する。この循環を所定時間継続すると水がラジウムセラミック体と電気石セラミック体の作用によりイオン電荷化されるとともに、銀−亜鉛合金メッキの作用により一般細菌が消滅する。   According to the present invention, when water is stored in a water storage tank and pumped up by a pump or the like, the water flows into the case and touches the plating surface of the radium ceramic body, tourmaline ceramic body, or copper plate, and then returned to the water storage tank. Circulate. When this circulation is continued for a predetermined time, water is ionized by the action of the radium ceramic body and the tourmaline ceramic body, and general bacteria disappear by the action of the silver-zinc alloy plating.

本発明の改質部材は、薄板状や網状のものを貯水タンクの側面や底面の一部又は全面に敷設したり、浮体に取り付けて水面を浮遊させて水と接触できるようにしたもので、貯水タンク内の水を一電荷イオン化するという作用を奏するものである。磁石は、互いがS極同士又はN極同士のように反発する向きに配置されるもので、より磁力を高めて安定させるという作用を奏するものである。   The reforming member of the present invention is such that a thin plate or net-like member is laid on a part or the whole of the side surface or bottom surface of the water storage tank, or attached to a floating body so that the water surface can float and come into contact with water. This has the effect of ionizing the water in the water storage tank into a single charge. The magnets are arranged in such a direction that they repel each other like S poles or N poles, and have the effect of increasing the magnetic force and stabilizing it.

ラジウムセラミック体と電気石セラミック体は、それらの鉱石粉を1000℃以上の高温で還元焼成し、外径約10mm、長さ約10mmほどの円柱状のチップに形成されたものが用いられる。これらは環境の変化(温度・湿度・摩擦等)でマイナスイオンを発生するものである。銅板に処理される銀−亜鉛合金メッキは、水の除菌と銅板の防錆のために処理されるもので、銀と亜鉛の重量比が7:3〜9:1の範囲が実用的である。以下、本発明の実施例を図面に基づいて具体的に説明する。   As the radium ceramic body and the tourmaline ceramic body, those formed by reducing or firing those ore powders at a high temperature of 1000 ° C. or more and forming a cylindrical chip having an outer diameter of about 10 mm and a length of about 10 mm are used. These generate negative ions due to environmental changes (temperature, humidity, friction, etc.). Silver-zinc alloy plating processed on copper plate is processed for disinfection of water and rust prevention of copper plate, and the weight ratio of silver and zinc is practical in the range of 7: 3 to 9: 1. is there. Embodiments of the present invention will be specifically described below with reference to the drawings.

図1は実施例のイオン電荷化装置の説明図、図2は実施例のイオン電荷化部の説明図、図3は実施例のセラミック体の配置を示す説明図、図4は実施例の水質細菌検査を示す成績書、図5は実施例の理化学検査を示す結果書、図6,8は比較例の水質細菌検査を示す成績書、図7,9は比較例の理化学検査を示す結果書である。   FIG. 1 is an explanatory view of an ion charging device of an embodiment, FIG. 2 is an explanatory view of an ion charging portion of the embodiment, FIG. 3 is an explanatory view showing an arrangement of ceramic bodies of the embodiment, and FIG. Results report showing bacteriological test, FIG. 5 is a result document showing physical and chemical test of Example, FIGS. 6 and 8 are results report showing water quality bacterial test of comparative example, and FIGS. 7 and 9 are result reports showing physical and chemical test of comparative example. It is.

図中、10は貯水タンク、11は改質部材、20はポンプ、30は水管、40はイオン化部、41はラジウムセラミック体,42は電気石セラミック体、43は銅板、44は磁石、45はケース、50は戻し管、60は排水管、61はバルブ、Wは水である。   In the figure, 10 is a water storage tank, 11 is a reforming member, 20 is a pump, 30 is a water pipe, 40 is an ionization section, 41 is a radium ceramic body, 42 is a tourmaline ceramic body, 43 is a copper plate, 44 is a magnet, 45 is Case, 50 is a return pipe, 60 is a drain pipe, 61 is a valve, and W is water.

本実施例のイオン電荷化装置は、図1に示すように容量90Lの貯水タンク10と、貯水タンク10の水Wを水管30を通じて汲み上げるポンプ20と、ポンプ20で汲み上げた水Wをイオン電荷化するイオン化部40と、イオン化部40でイオン電荷化された水Wを貯水タンク10へ戻す戻し管50と、戻し管50の水Wをバルブ61の切替で排水する排水管60とで構成している。   As shown in FIG. 1, the ion charge device of this embodiment includes a water tank 10 having a capacity of 90 L, a pump 20 that pumps water W from the water tank 10 through a water pipe 30, and water that is pumped by the pump 20. An ionization unit 40, a return pipe 50 for returning the water W ionized by the ionization part 40 to the water storage tank 10, and a drain pipe 60 for draining the water W in the return pipe 50 by switching the valve 61. Yes.

イオン化部40は、図2,3に示すようにラジウム鉱石粉をセラミック化したラジウムセラミック体41の周囲に電気石粉をセラミック化した6個の電気石セラミック体42を放射状に配置し、ラジウムセラミック体41と電気石セラミック体42の集合体と銀−亜鉛合金メッキ処理した銅板43を交互に複数配置し、両端の銅板43の外側面に磁石44をそのN極が対向するように配置し、これらを水管30の途中に設けたケース45内に収容している。   As shown in FIGS. 2 and 3, the ionization unit 40 radially arranges six tourmaline ceramic bodies 42 obtained by ceramicizing the tourmaline powder around the radium ceramic body 41 obtained by converting the radium ore powder into a ceramic. 41 and an assembly of tourmaline ceramic bodies 42 and a plurality of copper plates 43 plated with silver-zinc alloy are alternately arranged, and magnets 44 are arranged on the outer surfaces of the copper plates 43 at both ends so that their N poles face each other. Is accommodated in a case 45 provided in the middle of the water pipe 30.

銀−亜鉛合金メッキの銀と亜鉛の重量比は8:2の割合である。銅板43は厚さ0.1mmのものを用い、ラジウムセラミック体41と電気石セラミック体42は外径10mm、長さ10mmの円柱状のチップを用いている。改質部材11は厚さ0.1mmの銅板で、貯水タンク10の底面全面に敷設している。   The weight ratio of silver to zinc in the silver-zinc alloy plating is 8: 2. The copper plate 43 has a thickness of 0.1 mm, and the radium ceramic body 41 and the tourmaline ceramic body 42 use columnar chips having an outer diameter of 10 mm and a length of 10 mm. The reforming member 11 is a copper plate having a thickness of 0.1 mm and is laid on the entire bottom surface of the water storage tank 10.

本実施例では、貯水タンク10に蒸留水からなる水Wを貯水してポンプ20を駆動させると、水Wが水管30を通じてイオン電荷化部40へ汲み上げられる。水Wはケース45の内部へ流入し、ラジウムセラミック体41・電気石セラミック体42・銅板43のメッキ面と触れ、戻し管50で貯水タンク10へ戻される。この循環をおよそ一昼夜継続すると水Wがイオン電荷化される。   In this embodiment, when water W made of distilled water is stored in the water storage tank 10 and the pump 20 is driven, the water W is pumped up to the ion charge unit 40 through the water pipe 30. The water W flows into the case 45, touches the plated surfaces of the radium ceramic body 41, the tourmaline ceramic body 42, and the copper plate 43, and is returned to the water storage tank 10 by the return pipe 50. When this circulation is continued for about one day, the water W is ionized.

前記イオン電荷化された水Wの水質細菌検査と理化学検査の測定結果を図4〜9に示す。図4,5は本実施例である。図6,7は比較例で、改質部材11に銀を用い、銅板43に代えてメッキ未処理の銀板を用いたものである。図8,9は比較例で、改質部材11に銅を用い、銅板43としてメッキ未処理のものを用いたものである。このように、本実施例では銀−亜鉛合金メッキの作用により一般細菌が消滅しているのがわかる。   The measurement results of the water bacteria test and the physicochemical test of the ion-charged water W are shown in FIGS. 4 and 5 show this embodiment. FIGS. 6 and 7 are comparative examples in which silver is used for the reforming member 11 and a silver plate that is not plated is used in place of the copper plate 43. 8 and 9 are comparative examples, in which copper is used for the reforming member 11, and a copper plate 43 that is not plated is used. Thus, in this example, it can be seen that general bacteria have disappeared due to the action of the silver-zinc alloy plating.

本発明のイオン電荷化装置で生成したイオン水は、洗浄水,化学薬剤との分離しない混和剤,飲料水等に利用できる。   The ionic water produced by the ion charging device of the present invention can be used for washing water, an admixture that does not separate from chemical agents, drinking water, and the like.

実施例のイオン電荷化装置の説明図である。It is explanatory drawing of the ion charging device of an Example. 実施例のイオン化部の説明図である。It is explanatory drawing of the ionization part of an Example. 実施例のセラミック体の配置を示す説明図である。It is explanatory drawing which shows arrangement | positioning of the ceramic body of an Example. 実施例の水質細菌検査を示す成績書である。It is a report showing the water quality bacteria test of an example. 実施例の理化学検査を示す結果書である。It is a result book which shows the physicochemical test of an Example. 比較例の水質細菌検査を示す成績書である。It is a report which shows the water bacteria test of a comparative example. 比較例の理化学検査を示す結果書である。It is a result book which shows the physical-chemical test of a comparative example. 比較例の水質細菌検査を示す成績書である。It is a report which shows the water bacteria test of a comparative example. 比較例の理化学検査を示す結果書である。It is a result book which shows the physical-chemical test of a comparative example.

符号の説明Explanation of symbols

10 貯水タンク
11 改質部材
20 ポンプ
30 水管
40 イオン化部
41 ラジウムセラミック体
42 電気石セラミック体
43 銅板
44 磁石
45 ケース
50 戻し管
60 排水管
61 バルブ
W 水
DESCRIPTION OF SYMBOLS 10 Water storage tank 11 Reforming member 20 Pump 30 Water pipe 40 Ionization part 41 Radium ceramic body 42 Tourmaline ceramic body 43 Copper plate 44 Magnet 45 Case 50 Return pipe 60 Drain pipe 61 Valve W Water

Claims (3)

貯水タンクの水を水路の途中に設けたイオン化部に通水して循環させながら電荷を帯びたイオン化する水のイオン電荷化装置において、前記貯水タンク内に銅製の改質部材を水と接触できる位置に設け、前記イオン化部が、ラジウム鉱石粉をセラミック化したラジウムセラミック体の周囲に電気石粉をセラミック化した電気石セラミック体を6個又は6の倍数の個数配置し、ラジウムセラミック体と電気石セラミック体の集合体と銀−亜鉛合金メッキ処理した銅板を交互に複数配置し、両端の銅板の外側面に磁石を互いが同じ極を向くように配置し、これらを水路の途中に収容した構造であることを特徴とする、水のイオン電荷化装置。   In an ion charge device for ionizing water that is charged with water flowing through an ionization section provided in the middle of a water channel and circulating the water in the water storage tank, a copper reforming member can be in contact with the water in the water storage tank The ionization part is arranged around the radium ceramic body obtained by ceramicizing the radium ore powder, and the tourmaline ceramic bodies obtained by ceramicizing the tourmaline powder are arranged in a number of six or a multiple of six. A structure in which a plurality of ceramic bodies and silver-zinc alloy plated copper plates are alternately arranged, and magnets are arranged on the outer surfaces of the copper plates at both ends so that the magnets face each other, and these are accommodated in the middle of the water channel An ion charge device for water, characterized in that 銀−亜鉛合金メッキの銀と亜鉛の重量比が7:3〜9:1の範囲である、請求項1記載の水のイオン電荷化装置。   The water ion charging apparatus according to claim 1, wherein the silver to zinc weight ratio of the silver-zinc alloy plating is in the range of 7: 3 to 9: 1. 請求項1又は2記載の水のイオン電荷化装置を用いて貯水タンク内の水を除菌できるようにした、水の除菌装置。   A water sterilization apparatus, wherein the water in the water storage tank can be sterilized by using the water ionization apparatus according to claim 1 or 2.
JP2007124110A 2007-05-09 2007-05-09 Water ion charge device Expired - Fee Related JP4523015B2 (en)

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JP2011083681A (en) * 2009-10-14 2011-04-28 Crystal Kenkyusho:Kk Method and apparatus for manufacturing negative ion water
CN104109775B (en) * 2014-01-09 2016-09-28 山东普华紫光环保设备有限公司 A kind of B alloy wire of purifying drinking water
RO135382A3 (en) 2021-05-26 2022-11-29 Marian Prodan Apparatus for continuous-flow water ionization with metallic ions of gold, silver, magnesium and zinc, present in water
JP7688855B2 (en) * 2021-12-27 2025-06-05 東洋工学株式会社 Magnetophoresis device

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