JP2002079253A - Water cleaning method and water cleaning instrument - Google Patents
Water cleaning method and water cleaning instrumentInfo
- Publication number
- JP2002079253A JP2002079253A JP2000271966A JP2000271966A JP2002079253A JP 2002079253 A JP2002079253 A JP 2002079253A JP 2000271966 A JP2000271966 A JP 2000271966A JP 2000271966 A JP2000271966 A JP 2000271966A JP 2002079253 A JP2002079253 A JP 2002079253A
- Authority
- JP
- Japan
- Prior art keywords
- water
- metal
- ionization tendency
- different
- metals
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Water Treatment By Electricity Or Magnetism (AREA)
- Separation Of Suspended Particles By Flocculating Agents (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、花瓶や花器、池、
湖、プール、風呂等に収容される水に適用される水の浄
化方法、および、水を収容した花瓶や花器、池、湖、プ
ール、風呂の浴槽内等に収容された水の浄化具に関す
る。The present invention relates to a vase, a vase, a pond,
The present invention relates to a method for purifying water applied to water stored in lakes, pools, baths, and the like, and a purifier for water stored in vases, vases, ponds, lakes, pools, bath tubs and the like containing water. .
【0002】[0002]
【従来の技術】従来、水を収容した花瓶に差した切り
花、しきみ等の根付き植物や、花器に飾りつけた生け花
等の植物の寿命を長く維持させるための方法として、従
来では、花瓶や花器に収容された水中に、少量のショ
糖、炭水化物を混入させることが知られている。2. Description of the Related Art Conventionally, as a method for maintaining the longevity of plants with roots such as cut flowers and shikime inserted in a vase containing water, and plants such as ikebana decorated in a vase, a vase or vase has conventionally been used. It is known to mix a small amount of sucrose and carbohydrates into the contained water.
【0003】[0003]
【発明が解決しようとする課題】以上のように、花瓶や
花器に収容された水の中に、少量のショ糖、炭水化物を
混入させると、水中のショ糖、炭水化物を水と共に栄養
分として吸収することで切り花の生きがよくなる結果、
水だけの場合に比べるといくぶんは切り花の寿命を維持
させることができるようになるが、水中に混入されたシ
ョ糖、炭水化物により水中における雑菌の繁殖を早める
ことになり、この繁殖した雑菌で切り花の導管を詰まら
せることで水の吸い上げを悪くし、その結果、切り花等
における本来の寿命を縮めて早期に枯らすことになり、
従って、大きな延命効果は得られないという問題点があ
った。As described above, when a small amount of sucrose or carbohydrate is mixed in water contained in a vase or a vase, the sucrose and carbohydrate in the water are absorbed as nutrients together with the water. As a result, the life of the cut flowers improves,
Although it is possible to maintain the life of cut flowers somewhat compared to the case of water alone, sucrose and carbohydrates mixed in water will accelerate the growth of various bacteria in the water, and cut flowers with this propagated bacteria Clogging the pipes makes the water uptake worse, which shortens the life expectancy of cut flowers, etc.
Therefore, there is a problem that a great life extension effect cannot be obtained.
【0004】また、普通の水のみの場合でも、切り花等
を入れることで、時間の経過と共に水中で雑菌が繁殖し
て水が腐敗した状態となるもので、これが切り花等が本
来持っている寿命を縮める最大の原因となっていた。ま
た、風呂の場合は、人が入浴することにより、風呂の湯
に汚れ成分が混入し、この汚れ成分が混入することで風
呂の湯に雑菌が繁殖し、そのまま放置すると異臭を発す
るようになる。[0004] In addition, even in the case of ordinary water only, by inserting cut flowers and the like, various bacteria grow in the water with the lapse of time and the water becomes putrefactive. Was the biggest cause of shrinking. In addition, in the case of a bath, when a person takes a bath, dirt components are mixed in the bath water, and when the dirt components are mixed, various bacteria proliferate in the bath water, and when left as it is, an unpleasant odor is generated. .
【0005】本発明は、かかる従来の問題点を解決する
ためになされたものであって、その目的とするところ
は、水中に混在・混入する不純物を凝集沈殿させること
により、水を浄化することができ、これにより、花瓶や
花器等の場合は切り花、根付き植物等を長期に亙って生
きの良い状態に維持させるという延命機能を発揮可能で
あり、また、風呂の浴槽の場合は入浴後における残り湯
の濁りや異臭の発生を抑制することができ、また、池、
湖、プール等の場合はアオコその他の不純物を凝集沈殿
させて浄化させることができる水の浄化方法および水の
浄化具を提供することにある。The present invention has been made in order to solve such a conventional problem, and an object of the present invention is to purify water by coagulating and sedimenting impurities mixed and mixed in water. In the case of a vase, a vase, etc., it is possible to exhibit a life prolonging function of maintaining a cut flower, a rooted plant, etc. in a good state of life for a long period of time. Turbidity and unpleasant odor of the remaining hot water in the pond,
It is an object of the present invention to provide a water purification method and a water purification tool that can purify water and other impurities by coagulating and sedimenting water in a lake, a pool, or the like.
【0006】[0006]
【課題を解決するための手段】前記目的を達成するため
の手段として本発明請求項1記載の水の浄化方法は、イ
オン化傾向の大きさの異なる少なくとも2種類以上の異
種金属であってイオン化傾向が大きい方の金属の体積お
よび/または表面積がイオン化傾向が小さい方の金属の
体積および/または表面積より小さく設定された異種金
属を水中に没する状態で互いに接触することなしに任意
の間隔を保持して配置させるようにした。According to a first aspect of the present invention, there is provided a method for purifying water according to the present invention, wherein at least two kinds of dissimilar metals having different ionization tendencies are used. Maintains arbitrary distances without contacting each other while submerging different metals in which the volume and / or surface area of the larger metal is smaller than the volume and / or surface area of the metal with the smaller ionization tendency. To be arranged.
【0007】請求項2記載の水の浄化具は、イオン化傾
向の大きさの異なる少なくとも2種類以上の異種金属で
あってイオン化傾向が大きい方の金属の体積および/ま
たは表面積がイオン化傾向が小さい方の金属の体積およ
び/または表面積より小さく設定された異種金属を備
え、少なくとも前記2種類の異種金属が、間隔保持部材
を介することで少なくとも互いに接触することなしに任
意の間隔を保持して配置されている構成とした。[0007] The water purifier according to the second aspect of the present invention is a water purifier having at least two or more different metals having different ionization tendencies, wherein the metal having the higher ionization tendency has a smaller volume and / or surface area. A dissimilar metal set to be smaller than the volume and / or surface area of the metal of at least two kinds of dissimilar metals are arranged so as to be held at an arbitrary interval without at least contacting each other via an interval maintaining member. Configuration.
【0008】請求項3記載の水の浄化方法または水の浄
化具は、請求項1または2において、前記2種類以上の
異種金属の1種にアルミニウムが含まれている手段とし
た。According to a third aspect of the present invention, there is provided the water purifying method or the water purifying apparatus according to the first or second aspect, wherein one of the two or more different metals contains aluminum.
【0009】請求項4記載の水の浄化方法または水の浄
化具は、請求項1〜3のいずれかにおいて、前記2種類
以上の異種金属の1種がイオン化傾向が大きく電子を放
出して陽イオンになり易い(酸化され易い=還元力が強
い)金属で、もう1種がイオン化傾向が小さく電子の放
出が少なく陽イオンになりにくい金属である手段とし
た。According to a fourth aspect of the present invention, there is provided the water purification method or the water purification device according to any one of the first to third aspects, wherein one of the two or more kinds of dissimilar metals has a large ionization tendency and emits electrons to positively emit the electrons. The other means is a metal that is easily ionized (easily oxidized = having a strong reducing power), and another type is a metal that has a low ionization tendency and little electron emission and is unlikely to become a cation.
【0010】請求項5記載の水の浄化方法または水の浄
化具は、請求項1〜4のいずれかにおいて、前記2種類
以上の異種金属の1種がニッケルよりイオン化傾向が大
きい金属で、もう1種がニッケルよりイオン化傾向が小
さい金属である手段とした。According to a fifth aspect of the present invention, there is provided a water purification method or a water purification device according to any one of the first to fourth aspects, wherein one of the two or more different metals is a metal having a higher ionization tendency than nickel. One means is a metal having a lower ionization tendency than nickel.
【0011】請求項6記載の水の浄化方法または水の浄
化具は、請求項1〜5のいずれかにおいて、前記2種類
以上の各異種金属の全部もしくは1部が合金で構成され
ている手段とした。According to a sixth aspect of the present invention, there is provided the water purification method or the water purification device according to any one of the first to fifth aspects, wherein all or a part of each of the two or more kinds of different metals is made of an alloy. And
【0012】[0012]
【発明の作用および効果】本発明請求項1記載の水の浄
化方法は、上述のように、イオン化傾向の大きさの異な
る少なくとも2種類以上の異種金属であってイオン化傾
向が大きい方の金属の体積および/または表面積がイオ
ン化傾向が小さい方の金属の体積および/または表面積
より小さく設定された異種金属を水中に没する状態で互
いに接触することなしに任意の間隔を保持して配置させ
ることにより、水に混在・混入されたもしくは発生した
不純物が凝集して沈殿され、これにより水が浄化され
る。これは、実験の結果得られた結論であって、その理
由は必ずしも明らかではないが、おそらくイオン化傾向
が異なる異種金属相互間に生じる電位差により、異種金
属相互間に介在する水が導電媒体となって異種金属間に
極微弱電流が流れ、この水中を流れる極微弱電流による
作用および/または水のイオン化作用によるのではない
かと考えられる。According to the method for purifying water according to the first aspect of the present invention, as described above, at least two kinds of different metals having different ionization tendencies and the metal having the greater ionization tendency are used. By disposing dissimilar metals having a smaller volume and / or surface area than the volume and / or surface area of a metal having a smaller ionization tendency at an arbitrary interval without contacting each other while being immersed in water, The impurities mixed or mixed in or generated in the water are aggregated and precipitated, thereby purifying the water. This is a conclusion obtained as a result of the experiment, and the reason is not always clear, but probably due to the potential difference generated between dissimilar metals having different ionization tendencies, water interposed between dissimilar metals becomes a conductive medium. It is considered that an extremely weak current flows between the dissimilar metals, and the action is caused by the action of the extremely weak current flowing in the water and / or the ionization action of water.
【0013】従って、花瓶や花器等に適用することによ
り、花瓶や花器内等の水中における雑菌その他の不純物
が凝集して底部に沈殿し、これにより、雑菌の繁殖が抑
制されて水中に没した切り花の茎の腐敗が抑制されると
共に、雑菌その他の不純物が切り花等の導管に詰まるこ
とで水の吸い上げを悪くして切り花等を早期に枯らすこ
とが抑制され、その結果、切り花等を長期間に亙り生き
の良い状態に維持させるという延命機能が発揮される。
また、風呂の浴槽に適用することにより、入浴後におけ
る残り湯に混入された垢その他の不純物が凝集して底部
に沈殿し、これにより、残り湯の濁りや異臭の発生が抑
制され、また、池、湖、プール等に適用することによ
り、アオコその他の不純物が凝集して底部に沈殿し、即
ち、水が浄化された状態となる。Therefore, when applied to vases and vases, various bacteria and other impurities in the water in the vases and vases aggregate and precipitate at the bottom, thereby inhibiting the propagation of germs and submerging in the water. Rotation of cut flower stems is suppressed, and germs and other impurities are clogged in conduits of cut flowers and the like. A life-prolonging function of maintaining a good state of life over a long period of time is exhibited.
In addition, by applying to the bathtub of the bath, dirt and other impurities mixed in the remaining hot water after bathing aggregate and precipitate at the bottom, thereby suppressing the generation of turbidity and unpleasant odor of the remaining hot water, When applied to ponds, lakes, pools, etc., blue-green algae and other impurities agglomerate and precipitate at the bottom, that is, the water is in a purified state.
【0014】本発明請求項2記載の水の浄化具は、上述
のように、イオン化傾向の大きさの異なる少なくとも2
種類以上の異種金属であってイオン化傾向が大きい方の
金属の体積および/または表面積がイオン化傾向が小さ
い方の金属の体積および/または表面積より小さく設定
された異種金属が、所定の間隔保持部材を介することで
少なくとも互いに接触することなしに任意の間隔を保持
して配置されているため、この水の浄化具を花瓶や花
器、または浴槽、池、湖等の水中に投入することによ
り、前記請求項1に記載の発明と同様の作用・効果が得
られる。[0014] The water purifier according to the second aspect of the present invention, as described above, has at least two different ionization tendencies.
Dissimilar metals of different kinds or more and whose volume and / or surface area are set smaller than the volume and / or surface area of the metal having a higher ionization tendency are smaller than the metal and the surface area of the metal having a lower ionization tendency. Since the water purifier is arranged at an arbitrary interval without contacting at least without intervening, the water purifier is charged into a vase, a vase, or a bathtub, a pond, a lake, or the like, so that the water purifier can be charged. The same operations and effects as those of the invention described in Item 1 are obtained.
【0015】請求項3記載の水の浄化方法または水の浄
化具は、上述のように、前記2種類以上の異種金属の1
種にアルミニウムが含まれている構成とすることで、ア
ルミニウムは金属の中でもイオン化傾向が大きく、か
つ、比較的価格も安価であるため、低コストで最大の効
果を発揮させることができるようになる。According to a third aspect of the present invention, there is provided the water purification method or the water purification device according to the first aspect, wherein one of the two or more kinds of different metals is used.
By adopting a configuration in which aluminum is contained in the seed, aluminum has a large ionization tendency among metals and is relatively inexpensive, so that the maximum effect can be exhibited at low cost. .
【0016】請求項4記載の水の浄化方法または水の浄
化具は、上述のように、前記2種類以上の異種金属の1
種がイオン化傾向が大きく湿気中で電子を放出して陽イ
オンになり易い(酸化され易い=還元力が強い)金属
で、もう1種がイオン化傾向が小さく電子の放出が少な
く陽イオンになりにくい金属である構成としたことで、
切り花等を長期間に亙り生きの良い状態に維持させると
いう延命機能をより高めることができるようになる。こ
れは、金属イオンの効果と、イオン化傾向が大きな金属
とイオン化傾向が小さな金属との間の電位差により発生
する極微弱電流による効果との相乗効果によるのではな
いかと考えられる。According to a fourth aspect of the present invention, there is provided the water purification method or the water purification tool according to the first aspect, wherein one of the two or more kinds of different metals is used.
The species is a metal that has a high ionization tendency and emits electrons in moisture and easily becomes a cation (it is easily oxidized = strong reducing power). The other species has a low ionization tendency and emits less electrons and is less likely to become a cation. By adopting a metal structure,
It is possible to further enhance the life-prolonging function of maintaining cut flowers and the like in a viable state for a long period of time. This is considered to be due to a synergistic effect between the effect of the metal ion and the effect of the extremely weak current generated by the potential difference between the metal having a high ionization tendency and the metal having a low ionization tendency.
【0017】請求項5記載の水の浄化方法または水の浄
化具は、上述のように、前記2種類以上の異種金属の1
種がニッケルよりイオン化傾向が大きい金属で、もう1
種がニッケルよりイオン化傾向が小さい金属とすること
により、前記請求項3の構成要件が成立した状態とな
る。According to a fifth aspect of the present invention, there is provided the water purification method or the water purification tool according to the first aspect, wherein one of the two or more different kinds of metals is used.
The seed is a metal with a higher ionization tendency than nickel.
By making the seed a metal having a lower ionization tendency than nickel, the condition of claim 3 is satisfied.
【0018】[0018]
【発明の実施の形態】以下、本発明の実施の形態を詳細
に説明する。この発明の実施の形態の水の浄化具Aは、
イオン化傾向の大きさの異なる2種類の異種金属1、2
であってイオン化傾向が大きい方の金属の体積および/
または表面積がイオン化傾向が小さい方の金属の体積お
よび/または表面積より小さく設定された異種金属を備
え、この2種類の異種金属1、2が間隔保持部材3を介
することで互いに接触することなしに所定の間隔を保持
して配置された構造としたものである。Embodiments of the present invention will be described below in detail. The water purifier A according to the embodiment of the present invention includes:
Two types of dissimilar metals 1 and 2 having different ionization tendencies
And the volume of the metal having the greater ionization tendency and / or
Alternatively, a dissimilar metal whose surface area is set smaller than the volume and / or surface area of the metal having a smaller ionization tendency is provided, and the two kinds of dissimilar metals 1 and 2 do not come into contact with each other through the spacing member 3. The structure is such that they are arranged while maintaining a predetermined interval.
【0019】さらに詳述すると、この発明の実施の形態
の水の浄化具Aは、図1および図2に示すように、前記
イオン化傾向の大きさの異なる2種類の異種金属1、2
として、イオン化傾向が大きなアルミニウム(Al)の
薄板と、イオン化傾向の小さな銅(Cu)の薄板が用い
られ、この両異種金属1、2を間隔保持部材3を構成す
るポリプロピレン等の非導電性シートの両面に接着固定
した三層構造としたものである。なお、この発明の実施
の形態では、イオン化傾向が大きなアルミニウム(A
l)の薄板の表面積をこれよりイオン化傾向が小さな銅
(Cu)の薄板の表面積の約1/7に設定した。More specifically, as shown in FIGS. 1 and 2, the water purifier A according to the embodiment of the present invention comprises two kinds of different metals 1 and 2 having different ionization tendencies.
A thin sheet of aluminum (Al) having a high ionization tendency and a thin sheet of copper (Cu) having a low ionization tendency are used. It has a three-layer structure adhesively fixed to both sides. In the embodiment of the present invention, aluminum (A) having a large ionization tendency is used.
The surface area of the thin plate of 1) was set to about 1/7 of the surface area of the copper (Cu) thin plate having a smaller ionization tendency.
【0020】即ち、前記一方のアルミニウム(Al)
は、金属の中でもイオン化傾向が大きく湿気中で電子を
放出して陽イオンになり易い(酸化され易い=還元力が
強い)金属で、もう一方の銅(Cu)は、金属の中でイ
オン化傾向が小さく水中で電子の放出が少なく陽イオン
になりにくい金属である。That is, the one aluminum (Al)
Is a metal which has a high ionization tendency among metals and easily emits electrons in moisture to become a cation (easy to oxidize = reducing power is strong), and the other copper (Cu) is a metal having a high ionization tendency in the metal. It is a small metal that emits less electrons in water and is less likely to become a cation.
【0021】この発明の実施の形態の水の浄化具Aは、
以上のように構成されるため、この水の浄化具Aを水中
に投入しておくことにより、水に混在・混入されたもし
くは発生した不純物が凝集して沈殿され、これにより水
が浄化された状態となる。これは、実験の結果得られた
結論であって、その理由は必ずしも明らかではないが、
おそらくイオン化傾向が異なる異種金属相互間に生じる
電位差により、異種金属相互間に介在する水が導電媒体
となって異種金属間に極微弱電流が流れ、この水中を流
れる極微弱電流による作用と、水のイオン化作用による
のではないかと考えられる。[0021] The water purifier A of the embodiment of the present invention comprises:
Since the water purifier A is placed in water because of the above-described configuration, impurities mixed or mixed in or generated in water are aggregated and precipitated, thereby purifying the water. State. This is a conclusion of the experiment, and the reason is not always clear,
Probably due to the potential difference generated between dissimilar metals having different ionization tendencies, water interposed between the dissimilar metals acts as a conductive medium, causing a very weak current to flow between the dissimilar metals. This is probably due to the ionization effect of
【0022】即ち、花瓶や花器等の水中に投入しておく
ことにより、水中における雑菌その他の不純物が凝集し
て底部に沈殿し、これにより、雑菌の繁殖が抑制されて
水中に没した切り花の茎の腐敗が抑制されると共に、雑
菌その他の不純物が切り花等の導管に詰まることで水の
吸い上げを悪くして切り花等を早期に枯らすことが抑制
され、その結果、切り花等を長期間に亙り生きの良い状
態に維持させるという延命機能が発揮される。なお、銅
や銀の器の中に飲料水や食物を収容しておくと腐りにく
いということは、古代より知られかつ用いられている方
法であり、これは、金属イオンの殺菌作用によるものと
考えられている。That is, by putting them in water such as a vase or a vase, various bacteria and other impurities in the water are aggregated and settled on the bottom, whereby the propagation of various bacteria is suppressed, and the cut flowers immersed in water are suppressed. Stem rot is suppressed, and germs and other impurities are clogged in conduits of cut flowers, etc., which inhibits water from being sucked up and prevents cut flowers from dying early. The life extension function of maintaining a good state of life is exhibited. In addition, it is a method that has been known and used since ancient times that it is hard to rot when drinking water and food are stored in copper and silver vessels, and this is due to the sterilizing action of metal ions. It is considered.
【0023】また、風呂の浴槽に適用することにより、
入浴後における残り湯に混入された垢その他の不純物が
凝集して底部に沈殿し、これにより、残り湯の濁りや異
臭の発生が抑制され、また、池、湖、プール等に適用す
ることにより、アオコその他の不純物が凝集して底部に
沈殿し、即ち、水が浄化された状態となる。Also, by applying to a bath tub,
The dirt and other impurities mixed into the remaining hot water after bathing aggregate and precipitate at the bottom, thereby suppressing the turbidity and off-odor of the remaining hot water, and also by applying to ponds, lakes, pools, etc. , Algae and other impurities aggregate and precipitate at the bottom, that is, the water is in a purified state.
【0024】また、前記2種類以上の異種金属1、2の
一方にアルミニウム(Al)を用いたため、アルミニウ
ムは金属の中でもイオン化傾向が大きく、かつ、比較的
価格も安価であるため、低コストで最大の効果を発揮さ
せることができるようになる。Also, since aluminum (Al) is used for one of the two or more kinds of dissimilar metals 1 and 2, aluminum has a large ionization tendency among metals and is relatively inexpensive, so that aluminum is low in cost. The maximum effect can be exhibited.
【0025】また、前記異種金属1、2として、イオン
化傾向が大きく湿気中で電子を放出して陽イオンになり
易い(酸化され易い=還元力が強い)アルミニウム(A
l)と、イオン化傾向が小さく電子の放出が少なく陽イ
オンになりにくい銅(Cu)との組み合わせとしたこと
で、切り花等を長期間に亙り生きの良い状態に維持させ
るという延命機能をより高めることができるようにな
る。これは、金属イオンによる効果と、イオン化傾向が
大きな金属(アルミニウム)とイオン化傾向が小さな金
属(銅)との間の電位差により発生する極微弱電流によ
る効果との相乗効果によるのではないかと考えられる。Aluminum (A) which has a high ionization tendency and easily emits electrons in moisture and easily becomes a cation (easily oxidized = has a strong reducing power) as the dissimilar metals 1 and 2
1) and a combination of copper (Cu), which has a low ionization tendency, emits a small amount of electrons, and does not easily become a cation, further enhances the life-prolonging function of maintaining cut flowers and the like in a viable state for a long period of time. Will be able to do it. This is considered to be due to a synergistic effect between the effect of the metal ions and the effect of the extremely weak current generated by the potential difference between the metal (aluminum) having a high ionization tendency and the metal (copper) having a low ionization tendency. .
【0026】以上は、水の浄化具について説明したが、
水の浄化方法としては、イオン化傾向が異なる異種金属
1、2うち、イオン化傾向が小さい方の金属(例えば、
銅)で花瓶等を形成し、その花瓶等の水が収容される内
部の一部に異種金属1、2のうちイオン化傾向が大きい
方の金属(例えば、アルミニウム)を間隔保持部材等を
介することにより直接接触することなしに備えるか、も
しくは、もう一方の金属を単に投入することにより、同
様の作用・効果を得ることができる。また、風呂の浴槽
やプールにあっては、これらの水中に没する内面の互い
に略対向する面に、異種金属1、2を張り付けたり、ま
たは、両異種金属1、2を、互いに接触することなしに
単に投入することにより、同様の作用・効果が得られ
る。Although the water purifier has been described above,
As a method of purifying water, of the different metals 1 and 2 having different ionization tendencies, a metal having a smaller ionization tendency (for example,
A vase or the like is formed of copper), and a metal (for example, aluminum) having a higher ionization tendency among the dissimilar metals 1 and 2 is interposed in a part of the interior of the vase or the like in which water is stored via a spacing member or the like. Thus, the same operation and effect can be obtained by preparing without direct contact or simply charging the other metal. In the case of bathtubs and pools, dissimilar metals 1 and 2 are attached to the surfaces of these submerged submerged surfaces that are substantially opposite to each other, or both dissimilar metals 1 and 2 are brought into contact with each other. The same operation and effect can be obtained by simply throwing in without.
【0027】以上本発明の実施の形態を説明してきた
が、本発明の具体的な構成は本発明の実施の形態に限定
されるものではなく、発明の要旨を逸脱しない範囲の設
計変更等があっても本発明に含まれる。Although the embodiment of the present invention has been described above, the specific configuration of the present invention is not limited to the embodiment of the present invention, and a design change or the like may be made without departing from the gist of the invention. Even if present, it is included in the present invention.
【0028】例えば、発明の実施の形態では、異種金属
として、アルミニウム(Al)と銅(Cu)を用いた
が、その他の金属を用いることができ、また、合金を用
いることもできる。For example, in the embodiment of the present invention, aluminum (Al) and copper (Cu) are used as dissimilar metals, but other metals or alloys can be used.
【0029】また、発明の実施の形態では、イオン化傾
向の異なる異種金属1、2のいずれも薄板を用いた例を
示したが、イオン化傾向が大きい方の金属(例えば、ア
ルミニウム)として薄板を用い、イオン化傾向の小さい
方の金属(例えば、銅)は厚板を用いることにより体積
比の割合を極端に大きくした状態(体積比で約100〜
400倍、面積比で約10〜20倍)で実験した結果、
さらに安定して良い結果が得られた。Further, in the embodiment of the present invention, an example in which a thin plate is used for each of the dissimilar metals 1 and 2 having different ionization tendencies has been described, but a thin plate is used as a metal having a higher ionization tendency (eg, aluminum). The metal having a smaller ionization tendency (for example, copper) is in a state where the ratio of the volume ratio is extremely increased by using a thick plate (about 100 to 100% by volume).
400 times, about 10 to 20 times in area ratio)
Furthermore, good results were obtained stably.
【0030】また、発明の実施の形態では、間隔保持部
材3として、ポリプロピレン等の非導電性シートを例に
とったが、その他に、ポーラスな物質、人工発泡物体、
木炭、竹炭、接着材等、任意の物質を用いることができ
る。In the embodiment of the present invention, a non-conductive sheet such as polypropylene is used as the spacing member 3 as an example.
Any substance such as charcoal, bamboo charcoal, and an adhesive can be used.
【図1】本発明の実施の形態の水の浄化具を示す平面図
である。FIG. 1 is a plan view showing a water purifier according to an embodiment of the present invention.
【図2】本発明の実施の形態の水の浄化具を示す縦断面
図である。FIG. 2 is a longitudinal sectional view showing a water purifier according to the embodiment of the present invention.
1 異種金属(アルミニウムの薄板) 2 異種金属(銅の薄板) 3 間隔保持部材 Reference Signs List 1 Dissimilar metal (aluminum sheet) 2 Dissimilar metal (copper sheet) 3 Spacing member
Claims (6)
2種類以上の異種金属であってイオン化傾向が大きい方
の金属の体積および/または表面積がイオン化傾向が小
さい方の金属の体積および/または表面積より小さく設
定された異種金属を水中に没する状態で互いに接触する
ことなしに任意の間隔を保持して配置させることを特徴
とする水の浄化方法。1. The volume and / or surface area of a metal having at least two kinds of different metals having different ionization tendencies and having a higher ionization tendency is larger than the volume and / or surface area of a metal having a smaller ionization tendency. A method for purifying water, comprising disposing different kinds of metal, which are set small, at an arbitrary interval without contacting each other in a state of being immersed in water.
2種類以上の異種金属であってイオン化傾向が大きい方
の金属の体積および/または表面積がイオン化傾向が小
さい方の金属の体積および/または表面積より小さく設
定された異種金属を備え、 少なくとも前記2種類の異種金属が、間隔保持部材を介
することで少なくとも互いに接触することなしに任意の
間隔を保持して配置されていることを特徴とする水の浄
化具。2. The volume and / or surface area of at least two types of dissimilar metals having different levels of ionization tendency and having a higher ionization tendency than the volume and / or surface area of a metal having a lower ionization tendency. Water comprising: a dissimilar metal set at a small size, wherein at least the two kinds of dissimilar metals are arranged at an arbitrary interval without contacting each other at least through a spacing member. Purifier.
ニウムが含まれていることを特徴とする請求項1または
2に記載の水の浄化方法または水の浄化具。3. The method for purifying water or the water purifier according to claim 1, wherein one of the two or more different metals contains aluminum.
ン化傾向が大きく電子を放出して陽イオンになり易い
(酸化され易い=還元力が強い)金属で、もう1種がイ
オン化傾向が小さく電子の放出が少なく陽イオンになり
にくい金属であることを特徴とする請求項1〜3のいず
れかに記載の水の浄化方法または水の浄化具。4. One of the two or more different metals is a metal which has a high ionization tendency and easily emits electrons to easily become a cation (easily oxidized = having a strong reducing power), and the other one is an ionization tendency. The water purification method or water purification tool according to any one of claims 1 to 3, wherein the metal is a metal that has a small size and emits a small amount of electrons and does not easily become a cation.
ルよりイオン化傾向が大きい金属で、もう1種がニッケ
ルよりイオン化傾向が小さい金属であることを特徴とす
る請求項1〜4のいずれかに記載の水の浄化方法または
水の浄化具。5. The method according to claim 1, wherein one of the two or more different metals is a metal having a higher ionization tendency than nickel, and the other is a metal having a lower ionization tendency than nickel. A water purification method or a water purification device according to any of the claims.
は1部が合金で構成されていることを特徴とする請求項
1〜5のいずれかに記載の水の浄化方法または水の浄化
具。6. The method for purifying water or the water purifier according to claim 1, wherein all or a part of each of the two or more kinds of different metals is made of an alloy. .
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2000271966A JP2002079253A (en) | 2000-09-07 | 2000-09-07 | Water cleaning method and water cleaning instrument |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2000271966A JP2002079253A (en) | 2000-09-07 | 2000-09-07 | Water cleaning method and water cleaning instrument |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JP2002079253A true JP2002079253A (en) | 2002-03-19 |
Family
ID=18758177
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2000271966A Pending JP2002079253A (en) | 2000-09-07 | 2000-09-07 | Water cleaning method and water cleaning instrument |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2002079253A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005261987A (en) * | 2002-09-06 | 2005-09-29 | Joiaasu Kk | Activation apparatus |
| EP1674428A1 (en) * | 2003-08-22 | 2006-06-28 | Kido, Toshihiro | Method for producing water containing metal ion and water treatment method using said production method, and tool for producing water containing metal ion and water treatment device using said production tool |
| JP4901995B2 (en) * | 2008-08-29 | 2012-03-21 | 洋二 早川 | Water environmental battery |
| JP2012157852A (en) * | 2011-01-31 | 2012-08-23 | Kazuhiro Hayashi | Electrode purification body for sterilizing living things and bacteria of ballast water of ships, sterilizing biological community stuck to ship body and preventing sticking with electrode potential difference as motive power for causing electrochemical reaction |
-
2000
- 2000-09-07 JP JP2000271966A patent/JP2002079253A/en active Pending
Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005261987A (en) * | 2002-09-06 | 2005-09-29 | Joiaasu Kk | Activation apparatus |
| EP1674428A1 (en) * | 2003-08-22 | 2006-06-28 | Kido, Toshihiro | Method for producing water containing metal ion and water treatment method using said production method, and tool for producing water containing metal ion and water treatment device using said production tool |
| EP1674428A4 (en) * | 2003-08-22 | 2010-02-17 | Kido Toshihiro | Method for producing water containing metal ion and water treatment method using said production method, and tool for producing water containing metal ion and water treatment device using said production tool |
| JP4901995B2 (en) * | 2008-08-29 | 2012-03-21 | 洋二 早川 | Water environmental battery |
| US8540855B2 (en) | 2008-08-29 | 2013-09-24 | Youji Hayakawa | Water battery device |
| JP2012157852A (en) * | 2011-01-31 | 2012-08-23 | Kazuhiro Hayashi | Electrode purification body for sterilizing living things and bacteria of ballast water of ships, sterilizing biological community stuck to ship body and preventing sticking with electrode potential difference as motive power for causing electrochemical reaction |
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