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JP3953971B2 - Cu ion mineral sterilizing water generator and method of using Cu ion mineral sterilizing water generator - Google Patents
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JP3953971B2 - Cu ion mineral sterilizing water generator and method of using Cu ion mineral sterilizing water generator - Google Patents

Cu ion mineral sterilizing water generator and method of using Cu ion mineral sterilizing water generator Download PDF

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JP3953971B2
JP3953971B2 JP2003085204A JP2003085204A JP3953971B2 JP 3953971 B2 JP3953971 B2 JP 3953971B2 JP 2003085204 A JP2003085204 A JP 2003085204A JP 2003085204 A JP2003085204 A JP 2003085204A JP 3953971 B2 JP3953971 B2 JP 3953971B2
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water
cap
sterilizing water
sterilizing
water generator
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JP2004290782A (en
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冨士雄 ▲高▼田
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Description

【0001】
【発明の属する技術分野】
本発明は、新規な構成を有するCu(銅)イオンミネラル殺菌水発生装置とCu(銅)イオンミネラル殺菌水発生装置の使用方法に関するものである。
具体的には、下記の各場合に適合するものである。
1.食品加工場、温泉、プール、井戸水等での病原性大腸菌(O−157)、黄色ブドウ球菌、レジオネラ菌、細菌等の殺菌装置。
また、飲料水としても、飲んでおいしくミネラル分が入った安全な水を同時にできる装置。
2.地球環境の中に生息し、人体、動物等に危害を与える細菌等の殺菌装置。
【0002】
【従来の技術】
従来、この種のものにあっては、下記のようなものになっている。
水道の配管に接続し、塩素を除去し、塩素の代わりにCuイオンで殺菌をするよう構成された装置である。
【0003】
【発明が解決しようとする課題】
従来の技術で述べたものにあっては、下記のような問題点を有していた。
水道の配管に接続し、塩素を除去し、塩素の変わりにCuイオンで殺菌をするよう構成された装置を、一般住宅で簡単に取付けできる装置として、銅管外径50〜60mm、長さ300〜500mmの中に3〜8mmのCuの粒子を入れ、これに水道圧力で水を通し何回も試験したが、結果Cuイオンの発生が弱い。
【0004】
本発明は、従来の技術の有するこのような問題点に鑑みなされたものであり、その目的とするところは、次のようなことのできるものを提供しようとするものである。
【0005】
【課題を解決するための手段】
上記目的を達成するために、本発明は下記のようになるものである。
【0006】
請求項記載の発明は、殺菌水発生装置本体2とろ過器3から構成され、
A.殺菌水発生装置本体2は、容器部2Aと容器部内に充填されたCuの粒子群2Bから構成され、
a.容器部2Aは、当該容器部の下端中央に給水口2A2Pを有する下方から取付けられたキャップ状下方室2A21と、また、上端中央に排水口2A3Pを有する上方から取付けられたキャップ状上方室2A31と、キャップ状下方室2A21内に張設された下方フィルタ2A4と、キャップ状上方室2A31内に張設された上方フィルタ2A5から構成され、
b.Cuの粒子群2Bは、多数のCuの粒子2B1で構成され、Cuの粒子2B1は、Cuを素材として0.3〜2.0mm程の多面体で構成され、容器部2A内に密度の高い状態で充填され、微量の銅が水の中に溶け込め殺菌に必要な水を作り出すよう構成され、
B.ろ過器3は、タンク3Aの中にろ材が充填され、
C.タンク3Aの上端には処理水送水用パイプP1が連結され、タンク3Aの下端にはろ過処理済水送水用パイプP2が連結され、ろ過処理済水送水用パイプはポンプPを介して殺菌水発生装置本体2の容器部2Aにおけるキャップ状下方室2A21に連結され、容器部2Aにおけるキャップ状上方室2A31には殺菌水送水用パイプP3が連結されていると共に、容器部の中にポンプで4〜5kgの圧力をかけ水を押し出すことにより殺菌性のある水を発生するよう構成されたことを特徴とするものである。
【0007】
請求項記載の発明は、温泉水、プール用水、貯水など処理を所望する汚染された水を収容した貯水槽4に、請求項1記載の発明における処理水送水用パイプを連結し、Cuイオンミネラル殺菌水発生装置における殺菌水送水用パイプの先端を貯水槽4に連結し、ポンプにより水を循環するよう構成されていることを特徴とするものである。
【0008】
【発明の実施の形態】
発明の実施の形態を実施例に基づき図面を参照して説明する。
【0009】
1は第1発明のCuイオンミネラル殺菌水発生装置である。
第2発明はCuイオンミネラル殺菌水発生装置の使用方法である。
【0010】
第1発明のCu(銅)イオンミネラル殺菌水発生装置1について説明する。
殺菌水発生装置本体2とろ過器3から構成されている。
A.殺菌水発生装置本体2は、容器部2Aと容器部内に充填されたCuの粒子群2Bから構成されている。
a.容器部2Aは、円筒体2A1と、この円筒体の下端に連設された下方かがみ部2A2と、円筒体の上端に連設された上方かがみ部2A3と、下方かがみ部2A2の下端中央に給水口2A2Pを有する下方から取付けられたキャップ状下方室2A21と、上方かがみ部2A3の上端中央に排水口2A3Pを有する上方から取付けられたキャップ状上方室2A31と、キャップ状下方室2A21内に張設された下方フィルタ2A4と、キャップ状上方室2A31内に張設された上方フィルタ2A5から構成されている。
図中、2A6は下方かがみ部2A2の下方に張設された平面円形の拡散板である。そして、この拡散板には小孔が群設されている。
また、キャップ状下方室2A21とキャップ状上方室2A31は、フランジ部分で上下に分離でき、フィルタやCuの粒子群などの交換をすることができる。
容器部2Aは、ステンレス(SUS304〜SUS316)で構成されている。
下方フィルタ2A4と上方フィルタ2A5は、0.1mm程の銅線で綱を作り、段数を重ね20〜30tonの圧力で、Cuの粒子が装置より外に流れ出ないきめ細かい状態に構成されている。
【0011】
b.Cuの粒子群2Bは、多数のCuの粒子2B1で構成され、Cuの粒子2B1は、Cu(銅)を素材として0.3〜2.0mm程の多面体で構成され、容器部2A内に密度の高い状態で充填され、微量の銅が水の中に溶け込め殺菌に必要な水を作り出すよう構成されている。
c.密度の高い状態とは、下記のような状態である。
すなわち、1cm3 中にCuの粒子をただ入れるだけであると、100個位の粒子しか入らないが、振動をかけ圧力をかけると、1cm3 中に130〜140個位のCuの粒子が入る。
このようにして密度を高くすると、水がCuの粒子に満遍なく触れることにより濃度の高いCuイオン水を得ることができる。
【0012】
B.ろ過器3は、タンク3Aの中にろ材(図示略)が充填されている。
C.タンク3Aの上端には処理水送水用パイプP1が連結され、タンク3Aの下端にはろ過処理済水送水用パイプP2が連結され、ろ過処理済水送水用パイプはポンプPを介して殺菌水発生装置本体2の容器部2Aにおけるキャップ状下方室2A21に連結され、容器部2Aにおけるキャップ状上方室2A31には殺菌水送水用パイプP3が連結されている。
D.容器部2Aの中を下から上にポンプPで4〜5kgの圧力をかけ水を押し出すことにより殺菌性のある水ができる。
【0013】
第2発明のCuイオンミネラル殺菌水発生装置1の使用方法について説明する。
温泉水、プール用水、貯水など処理を所望する汚染された水を収容した貯水槽4に、上記Cuイオンミネラル殺菌水発生装置1における処理水送水用パイプP1を連結し、Cuイオンミネラル殺菌水発生装置1における殺菌水送水用パイプP3の先端を貯水槽4に連結し、ポンプPにより水を循環するよう構成されている。
【0014】
【実施例】
本発明で得たCuイオン水の試験成績は下記の通りである。
試供体〜Cuイオン水
検体(数、番号)〜1検体
試験成績〜試供体〜イオン水を▲1▼30%、▲2▼60%、▲3▼90%添加した水に黄色ブドウ球菌及び病原性大腸菌(O−157)の菌液を添加して35±1℃にて、添加直後、3時間後、7時間後、20時間後の菌数を測定した。
直後
黄色ブドウ球菌/ml
▲1▼ 2.8×105
▲2▼ 2.7×105
▲3▼ 1.9×105
病原性大腸菌(O−157)/ml
▲1▼ 1.8×104
▲2▼ 1.6×104
▲3▼ 1.9×104
3時間後
黄色ブドウ球菌/ml
▲1▼ 1.3×103
▲2▼ 5.6×102
▲3▼ 4.4×102
病原性大腸菌(O−157)/ml
▲1▼ 1.5×103
▲2▼ 9.0×102
▲3▼ 8.6×102
7時間後
黄色ブドウ球菌/ml
▲1▼ 6.6×102
▲2▼ 3.9×102
▲3▼ 3.6×102
病原性大腸菌(O−157)/ml
▲1▼ 5.5×102
▲2▼ 4.2×102
▲3▼ 4.0×102
20時間後
黄色ブドウ球菌/ml
▲1▼ 4.8×102
▲2▼ 3.3×102
▲3▼ 3.2×102
病原性大腸菌(O−157)/ml
▲1▼ 3.7×102
▲2▼ <300(18)
▲3▼ <300(15)
試験方法〜標準寒天平板培養法による。
【0015】
【発明の効果】
本発明は、上述の通り構成されているので次に記載する効果を奏する。
1.少量から大量の殺菌水を作り、幅の広い分野での細菌等の殺菌を行うことができる。
2.人間、動物などが飲んでも安全でまたおいしい水を作ることができる。
3.色々な殺菌方法がある中でコスト面、メンテナンス面でもメリットのある装置を作ることができる。
【図面の簡単な説明】
【図1】第1発明の略図的構成図である。
【図2】殺菌水発生装置本体の縦断面図である。
【図3】第2発明の略図的構成図である。
【符号の説明】
1 Cuイオンミネラル殺菌水発生装置
2 殺菌水発生装置本体
3 ろ過器
[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for using a Cu (copper) ion mineral sterilizing water generator and a Cu (copper) ion mineral sterilizing water generator having a novel configuration.
Specifically, it is applicable to the following cases.
1. Sterilizers for pathogenic Escherichia coli (O-157), Staphylococcus aureus, Legionella, bacteria, etc. in food processing plants, hot springs, pools, well water, etc.
In addition, as drinking water, it is a device that can drink and drink safe and delicious water at the same time.
2. Bacteria sterilizers that inhabit the global environment and harm humans and animals.
[0002]
[Prior art]
Conventionally, this type is as follows.
It is an apparatus configured to connect to a water supply pipe, remove chlorine, and sterilize with Cu ions instead of chlorine.
[0003]
[Problems to be solved by the invention]
Those described in the prior art have the following problems.
As an apparatus that can be connected to a water supply pipe, removed chlorine, and sterilized with Cu ions instead of chlorine, it can be easily installed in a general house, copper pipe outer diameter 50-60mm, length 300 Cu particles of 3 to 8 mm were put in ˜500 mm, and water was passed through this at tap pressure, and the test was repeated several times. As a result, the generation of Cu ions was weak.
[0004]
The present invention has been made in view of such problems of the prior art, and an object of the present invention is to provide the following.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention is as follows.
[0006]
Invention of Claim 1 is comprised from the sterilization water generator main body 2 and the filter 3,
A. The sterilizing water generator main body 2 is composed of a container part 2A and a Cu particle group 2B filled in the container part,
a. The container part 2A has a cap-like lower chamber 2A21 attached from below having a water supply port 2A2P at the center of the lower end of the container part, and a cap-like upper chamber 2A31 attached from above having a drain outlet 2A3P at the center of the upper end. The lower filter 2A4 stretched in the cap-shaped lower chamber 2A21 and the upper filter 2A5 stretched in the cap-shaped upper chamber 2A31.
b. The Cu particle group 2B is composed of a large number of Cu particles 2B1, and the Cu particle 2B1 is composed of a polyhedron of about 0.3 to 2.0 mm made of Cu as a raw material, and has a high density in the container portion 2A. Filled with a small amount of copper so that it can be dissolved in water to create the water needed for sterilization,
B. The filter 3 is filled with a filter medium in the tank 3A,
C. A treated water feed pipe P1 is connected to the upper end of the tank 3A, a filtered water feed pipe P2 is connected to the lower end of the tank 3A, and the filtered treated water feed pipe generates sterilized water via the pump P. The container body 2A is connected to the cap-like lower chamber 2A21 in the container part 2A, and the cap-like upper chamber 2A31 in the container part 2A is connected to the sterilizing water feed pipe P3, and is pumped into the container part by a pump 4-4. It is configured to generate sterilizable water by applying 5 kg of pressure and pushing out the water .
[0007]
The invention according to claim 2 connects the treated water supply pipe in the invention according to claim 1 to a water tank 4 containing contaminated water desired to be treated, such as hot spring water, pool water, water storage, etc., and Cu ions the tip of the sterilizing water supply pipe in mineral sterile water generator connected to a water tank 4, and is characterized in that it is configured to circulate water through the pump.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described based on examples with reference to the drawings.
[0009]
1 is a Cu ion mineral sterilizing water generator of the first invention.
The second invention is a method of using the Cu ion mineral sterilizing water generator.
[0010]
The Cu (copper) ion mineral sterilizing water generator 1 of the first invention will be described.
It comprises a sterilizing water generator main body 2 and a filter 3.
A. The sterilizing water generator main body 2 includes a container part 2A and a Cu particle group 2B filled in the container part.
a. The container portion 2A supplies water to the cylindrical body 2A1, the lower bending portion 2A2 provided continuously with the lower end of the cylindrical body, the upper bending portion 2A3 provided continuous with the upper end of the cylindrical body, and the lower end center of the lower bending portion 2A2. A cap-like lower chamber 2A21 attached from below having a mouth 2A2P, a cap-like upper chamber 2A31 attached from above having a drain outlet 2A3P at the center of the upper end of the upper bent portion 2A3, and a cap-like lower chamber 2A21. The lower filter 2A4 and the upper filter 2A5 stretched in the cap-shaped upper chamber 2A31.
In the figure, reference numeral 2A6 denotes a flat circular diffusion plate stretched below the downward bending portion 2A2. Small holes are grouped in the diffusion plate.
Further, the cap-shaped lower chamber 2A21 and the cap-shaped upper chamber 2A31 can be separated vertically by the flange portion, and the filter, the Cu particle group, and the like can be exchanged.
The container part 2A is made of stainless steel (SUS304 to SUS316).
The lower filter 2A4 and the upper filter 2A5 are formed in a fine state in which Cu particles do not flow out of the apparatus at a pressure of 20 to 30 tons by forming a rope with a copper wire of about 0.1 mm and overlapping the number of stages.
[0011]
b. The Cu particle group 2B is composed of a large number of Cu particles 2B1, and the Cu particle 2B1 is composed of a polyhedron of about 0.3 to 2.0 mm using Cu (copper) as a material, and has a density in the container portion 2A. It is filled in a high state, and a small amount of copper dissolves in the water to create the water required for sterilization.
c. The high density state is as follows.
That is, if only Cu particles are put in 1 cm 3 , only about 100 particles enter, but if vibration is applied and pressure is applied, about 130 to 140 Cu particles enter in 1 cm 3. .
When the density is increased in this way, high-concentration Cu ion water can be obtained by evenly contacting the Cu particles with the water.
[0012]
B. In the filter 3, a tank 3A is filled with a filter medium (not shown).
C. A treated water feed pipe P1 is connected to the upper end of the tank 3A, a filtered water feed pipe P2 is connected to the lower end of the tank 3A, and the filtered treated water feed pipe generates sterilized water via the pump P. The container main body 2 is connected to the cap-like lower chamber 2A21 in the container portion 2A, and the cap-like upper chamber 2A31 in the container portion 2A is connected to the sterilizing water supply pipe P3.
D. Bactericidal water can be produced by applying 4 to 5 kg of pressure with the pump P from the bottom to the top in the container 2A to push out the water.
[0013]
A method of using the Cu ion mineral sterilizing water generator 1 of the second invention will be described.
The treated water feed pipe P1 in the Cu ion mineral sterilizing water generator 1 is connected to a water storage tank 4 containing contaminated water desired to be treated, such as hot spring water, pool water, and storage water, to generate Cu ion mineral sterilized water. The tip of the sterilizing water supply pipe P3 in the apparatus 1 is connected to the water storage tank 4, and water is circulated by the pump P.
[0014]
【Example】
The test results of Cu ion water obtained in the present invention are as follows.
Specimen-Cu ion water sample (number, number)-1 sample Test results-Specimen-Ionic water (1) 30%, (2) 60%, (3) 90% added water to Staphylococcus aureus and pathogens The bacterial count was measured at 35 ± 1 ° C. immediately after the addition, 3 hours, 7 hours, and 20 hours after addition of the bacterial solution of Escherichia coli (O-157).
Immediately after Staphylococcus aureus / ml
▲ 1 ▼ 2.8 × 10 5
(2) 2.7 × 10 5
(3) 1.9 × 10 5
Pathogenic E. coli (O-157) / ml
▲ 1 ▼ 1.8 × 10 4
▲ 2 ▼ 1.6 × 10 4
(3) 1.9 × 10 4
3 hours later Staphylococcus aureus / ml
▲ 1 ▼ 1.3 × 10 3
(2) 5.6 × 10 2
(3) 4.4 × 10 2
Pathogenic E. coli (O-157) / ml
▲ 1 ▼ 1.5 × 10 3
(2) 9.0 × 10 2
(3) 8.6 × 10 2
7 hours later Staphylococcus aureus / ml
(1) 6.6 × 10 2
(2) 3.9 × 10 2
(3) 3.6 × 10 2
Pathogenic E. coli (O-157) / ml
(1) 5.5 × 10 2
(2) 4.2 × 10 2
(3) 4.0 × 10 2
20 hours later Staphylococcus aureus / ml
(1) 4.8 × 10 2
(2) 3.3 × 10 2
(3) 3.2 × 10 2
Pathogenic E. coli (O-157) / ml
(1) 3.7 × 10 2
▲ 2 ▼ <300 (18)
▲ 3 ▼ <300 (15)
Test method to standard agar plate culture method.
[0015]
【The invention's effect】
Since this invention is comprised as mentioned above, there exists an effect described below.
1. A large amount of sterilized water can be made from a small amount, and bacteria and the like can be sterilized in a wide range of fields.
2. Safe and delicious water can be made by humans and animals.
3. While there are various sterilization methods, it is possible to make a device that is advantageous in terms of cost and maintenance.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a first invention.
FIG. 2 is a longitudinal sectional view of a sterilizing water generator main body.
FIG. 3 is a schematic configuration diagram of the second invention.
[Explanation of symbols]
1 Cu ion mineral sterilizing water generator 2 Sterilizing water generator body 3 Filter

Claims (2)

殺菌水発生装置本体(2)とろ過器(3)から構成され、
殺菌水発生装置本体(2)は、容器部(2A)と容器部内に充填されたCuの粒子群(2B)から構成され、
容器部(2A)は、当該容器部の下端中央に給水口(2A2P)を有する下方から取付けられたキャップ状下方室(2A21)と、また、上端中央に排水口(2A3P)を有する上方から取付けられたキャップ状上方室(2A31)と、キャップ状下方室(2A21)内に張設された下方フィルタ(2A4)と、キャップ状上方室(2A31)内に張設された上方フィルタ(2A5)から構成され、
Cuの粒子群(2B)は、多数のCuの粒子(2B1)で構成され、Cuの粒子(2B1)は、Cuを素材として0.3〜2.0mm程の多面体で構成され、容器部(2A)内に密度の高い状態で充填され、微量の銅が水の中に溶け込め殺菌に必要な水を作り出すよう構成され、
ろ過器(3)は、タンク(3A)の中にろ材が充填され、
タンク(3A)の上端には処理水送水用パイプ(P1)が連結され、タンク(3A)の下端にはろ過処理済水送水用パイプ(P2)が連結され、ろ過処理済水送水用パイプはポンプ(P)を介して殺菌水発生装置本体(2)の容器部(2A)におけるキャップ状下方室(2A21)に連結され、容器部(2A)におけるキャップ状上方室(2A31)には殺菌水送水用パイプ(P3)が連結されていると共に、容器部の中にポンプで4〜5kgの圧力をかけ水を押し出すことにより殺菌性のある水発生するよう構成されことを特徴とするCuイオンミネラル殺菌水発生装置。
Consists of a sterilizing water generator body (2) and a filter (3),
The sterilizing water generator body (2) is composed of a container part (2A) and a Cu particle group (2B) filled in the container part,
The container part (2A) is attached from below with a cap-like lower chamber (2A21) attached from below having a water supply port (2A2P) at the center of the lower end of the container part, and from above having a drain outlet (2A3P) at the center of the upper end. The cap-shaped upper chamber (2A31), the lower filter (2A4) stretched in the cap-shaped lower chamber (2A21), and the upper filter (2A5) stretched in the cap-shaped upper chamber (2A31) Configured,
The Cu particle group (2B) is composed of a large number of Cu particles (2B1), and the Cu particles (2B1) are composed of a polyhedron of about 0.3 to 2.0 mm using Cu as a raw material. 2A) is packed in a dense state, and a small amount of copper dissolves in the water to create the water required for sterilization,
The filter (3) is filled with filter medium in the tank (3A),
The treated water feed pipe (P1) is connected to the upper end of the tank (3A), the filtered water feed pipe (P2) is connected to the lower end of the tank (3A), and the filtered treated water feed pipe is It is connected to the cap-like lower chamber (2A21) in the container part (2A) of the sterilizing water generator main body (2) via the pump (P), and the sterilizing water is supplied to the cap-like upper chamber (2A31) in the container part (2A). Cu, wherein with water feed pipe (P3) is connected, that is configured to generate a bactericidal water by extruding a water under a pressure of 4~5kg pump into the container portion Ion mineral sterilizing water generator.
温泉水、プール用水、貯水など処理を所望する汚染された水を収容した貯水槽(4)に、請求項1記載のCuイオンミネラル殺菌水発生装置における処理水送水用パイプを連結し、Cuイオンミネラル殺菌水発生装置における殺菌水送水用パイプの先端を貯水槽(4)に連結し、ポンプにより水を循環するよう構成されていることを特徴とするCuイオンミネラル殺菌水発生装置の使用方法 A treated water supply pipe in the Cu ion mineral sterilizing water generator according to claim 1 is connected to a water storage tank (4) containing contaminated water desired to be processed such as hot spring water, pool water, storage water, etc. A method of using a Cu ion mineral sterilizing water generator , wherein the tip of a sterilizing water supply pipe in the mineral sterilizing water generator is connected to a water storage tank (4) and water is circulated by a pump .
JP2003085204A 2003-03-26 2003-03-26 Cu ion mineral sterilizing water generator and method of using Cu ion mineral sterilizing water generator Expired - Fee Related JP3953971B2 (en)

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KR101675107B1 (en) * 2014-10-10 2016-11-11 주식회사 대창 Direct-coupled seawater purify filter coupled to the seawater supply pipe of inland fish farm water tank
CN104671508A (en) * 2015-03-20 2015-06-03 苏州泰欧阔仪器科技有限公司 Water purifying and storing device

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
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