JPS60222800A - Ion generation regulator by radioelement - Google Patents
Ion generation regulator by radioelementInfo
- Publication number
- JPS60222800A JPS60222800A JP7867184A JP7867184A JPS60222800A JP S60222800 A JPS60222800 A JP S60222800A JP 7867184 A JP7867184 A JP 7867184A JP 7867184 A JP7867184 A JP 7867184A JP S60222800 A JPS60222800 A JP S60222800A
- Authority
- JP
- Japan
- Prior art keywords
- ion
- ions
- positive
- negative
- negative ions
- 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
- Heat Sensitive Colour Forming Recording (AREA)
- Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
本発明は、放射性同位元素によるイオン発生調整装置に
関する。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a device for regulating ion generation using radioactive isotopes.
従来、例えば、アメリカ特許第4,386.276号明
細書に記載されているように、放射性鉱石(例見ばモナ
ザイトなど)を用いてその放射線によりイオン化ガスを
発生させ、そのイオン化ガスを液体又は固体に接触させ
ることにより医療、食品、加工などに役立たせる仁とが
知られる。Conventionally, as described in US Pat. No. 4,386.276, for example, a radioactive ore (for example, monazite) is used to generate an ionized gas by its radiation, and the ionized gas is converted into a liquid or It is known to be useful in medicine, food, processing, etc. when brought into contact with solid objects.
放射性同位大索は、一般にa線及びβ線が同時に放出す
ゐものであや、該両数射線によりプラスイオン及びマイ
ナスイオンが生成さnる。マイナスイオンは室内空気の
清浄、イオン水の製造などに有用であるのに対し、プラ
スイオンは、がんなどの治療などに効果があるが一般に
は有害であるとされてい&+1シたがって、それぞれの
用途において何岬障″4Ivr伴うことなくイオンの効
果を発揮させるには、プラスイオンあるい嬬マイナスイ
オ°ンのいずれかを用途に応じて選択することが必要で
ある。Radioactive isotope rays generally emit a-rays and beta-rays simultaneously, and positive and negative ions are generated by these rays. Negative ions are useful for purifying indoor air and producing ionized water, while positive ions are effective in treating cancer and other conditions, but are generally considered harmful. In order to exhibit the effects of ions without any hindrances in applications, it is necessary to select either positive ions or negative ions depending on the application.
本尭明燻、かかゐ優求を満すことをその目的とすゐもの
で、内部に放射性同位光′aを備え、該ye索の放射線
によりfラスイオン及びマイナスイオンを発生させるイ
オン発生用器体と、該イオン発生用器体において発生し
たプラスイオン及びマイナスイオン全外部に送出する送
風機と、前記イオン発生用器体に連なる内部にマイナス
イオン又はプラスイオンを吸着するイオン吸着電極金偏
えるイオン選別用器体と、該イオン吸着電極にプラス又
はマイナスの電位全付与する電源とから成り、プラスイ
オン又はマイナスイオンのいずnかを選択的に発生又は
採取することを特徴とする。The purpose of this device is to satisfy the above requirements, and it is equipped with a radioactive isotope light 'a' inside, and is used for ion generation to generate F-plus ions and negative ions by the radiation of the e-ray. a device body, a blower that sends out the positive ions and negative ions generated in the ion generating device to the entire outside, and an ion adsorption electrode that adsorbs negative ions or positive ions inside the ion generating device connected to the ion generating device. It consists of an ion sorting device and a power source that applies a positive or negative potential to the ion adsorption electrode, and is characterized in that it selectively generates or collects either positive ions or negative ions.
以下本発明の実施例全図面につき説明する。DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be explained with reference to all drawings.
図面において、(1)は送風機、(2)は該送風機(1
)に連なる内部に放射性同位元素、例えばウラン又はト
リウム全含有した原料物質を備えるイオン発生用器体で
、該器体(2)内で放射性同位元素の放射線により発生
したプラスイオン及びマイナスイオンを送風機(1)に
エリ通路(3)ヲ経てイオン選別用器体(4)の内部(
送出するようにした。該イオン選別用器体(4)の内部
には網状のイオン吸着電極(5)全配置し、該イオン吸
着電極(5)にプラス電位あるいはマイナス電位を付与
して内部に導入さ几たプラスイオン及びマイナスイオン
のうちマイナスイオンあるいはプラスイオンを吸着する
ようにした。In the drawings, (1) is a blower, and (2) is the blower (1).
) is an ion generating vessel that is equipped with a raw material containing a radioactive isotope, such as uranium or thorium, inside the vessel (2). The interior of the ion sorting vessel (4) (1) passes through the Eri passage (3)
I decided to send it. A net-like ion adsorption electrode (5) is arranged inside the ion sorting vessel (4), and positive ions are introduced into the inside by applying a positive or negative potential to the ion adsorption electrode (5). Among negative ions, negative ions or positive ions are adsorbed.
(6)は電源で、該電源(6)は例えば電池(6I)と
切換スイッチ(62)とから成る。該電池(61)は互
いに極性が逆にさnた電池ユニット(6+a)と(6t
h)とで構成さ几、切換スイッチ(62)は、摘み(7
)の操作に、!′ジ左方向あるいは右方向に回動し電池
ユニツ)(61a)のマイナス端子あるいは電池二二ツ
)(6+b)のプラス端子に接触して前記イオン吸着電
極(5)にマイナス電位あるいはプラス電位を付与する
接点(8)(9)、’lr絶縁体OQ上に有するもので
ある。(6) is a power source, and the power source (6) includes, for example, a battery (6I) and a changeover switch (62). The battery (61) is composed of battery units (6+a) and (6t) whose polarities are opposite to each other.
h) and the selector switch (62) is the knob (7).
) operations,! ' Turn to the left or right to contact the negative terminal of the battery unit (61a) or the positive terminal of the battery unit (6+b) to apply a negative or positive potential to the ion adsorption electrode (5). The contacts (8) and (9) to be applied are on the 'lr insulator OQ.
かくて、今、摘み(7)ヲ左方向に回動して接点(8)
を電池二二ツ)(6+a)のマイナス端子に接触させて
、イオン吸着電極(5)にマイナス電位を付与させてお
く。Thus, now turn the knob (7) to the left and touch the contact (8).
is brought into contact with the negative terminal of battery 22) (6+a) to apply a negative potential to the ion adsorption electrode (5).
送風機(1)によってイオン発生用器体(2)に送り込
まf′した空気は放射性同位元素の放射線により発生し
たプラスイオン及びマイナスイオンを通路(3)ヲ経て
イオン選別用器体(4)の内部に送り、そのうちプラス
イオンはイオン吸着電極(5)に吸着さnlその出口0
1)よりマイナスイオンが流出する。The air sent into the ion generating vessel (2) by the blower (1) passes through the passage (3) and the positive and negative ions generated by the radiation of the radioactive isotope to the inside of the ion sorting vessel (4). The positive ions are adsorbed by the ion adsorption electrode (5) and its outlet 0
1) More negative ions flow out.
前記放射性同位元素は、少量であっても比較的多量のマ
イナスイオンを供給することができる。The radioactive isotope can supply a relatively large amount of negative ions even if the amount is small.
このように本発明によるときは、内部に放射性同位元素
を備え、該元素の放射線によりプラスイオン及びマイナ
スイオン全発生させるイオン発生用器体と、該イオン発
生用器体において発生したプラスイオン及びマイナスイ
オン全外部に送出する送風機と、前記イオン発生用器体
に連なる内部にマイナスイオン又はプラスイオンを吸着
するイオン吸着電極を備えるイオン選別用器体と、該イ
オン吸着電極にプラス又はマイナスの電位′に+j与す
る電源とから成るから、マイナスイオンあるいはプラス
イオンのいず几か一方のイオン全採取することができ、
かくてマイナスイオンの場合には、こ几を居室等に供給
しタリ、イオン水として飲用に供することによす健康を
向上させることができ、また植物の栽培に利用す几ばそ
の生長が促進さ几る等の効果全有効に得ることができる
。As described above, according to the present invention, there is provided an ion generating vessel which includes a radioisotope inside and generates all positive ions and negative ions by radiation of the element, and an ion generating vessel which includes a radioactive isotope and generates all positive ions and negative ions in the ion generating vessel. an ion sorting device comprising an air blower that sends out ions to the entire outside, an ion adsorption electrode that adsorbs negative ions or positive ions in the interior connected to the ion generation device, and a positive or negative potential for the ion adsorption electrode. Since it consists of a power supply that gives +j to
In this way, in the case of negative ions, it is possible to improve health by supplying ionized water to the living room, etc., and use it as ionized water for drinking.Additionally, ionization used for cultivating plants can promote their growth. You can get all the effects such as curtailment.
図面は本発明の実施例の線図を示す。 The drawing shows a diagram of an embodiment of the invention.
Claims (1)
ラスイオン及びマイナスイオンを発生させるイオン発生
用器体と、該イオン発生用器体において発生したプラス
イオン及びマイナスイオンを外部に送出する送出する送
風機と、前記イオン発生用器体に連なる内部にマイナス
イオン又はプラスイオンを吸着するイオン吸着電極を備
えるイオン選別用器体と、該イオン吸着電極にプラス又
はマイナスの電位を付与する電源とから成り、プラスイ
オン又はマイナスイオンのいずれかを選択的に発生又は
採取sるうことを特徴とする放射性同位元素によるイオ
ン発生調整装置。An ion-generating vessel that has a radioactive isotope inside and generates positive ions and negative ions using the radiation of the element, and a blower that sends out the positive and negative ions generated in the ion-generating vessel to the outside. , an ion sorting vessel that is connected to the ion generating vessel and has an ion adsorption electrode that adsorbs negative ions or positive ions, and a power supply that applies a positive or negative potential to the ion adsorption electrode, An ion generation and adjustment device using a radioactive isotope, characterized in that it selectively generates or collects either positive ions or negative ions.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7867184A JPS60222800A (en) | 1984-04-20 | 1984-04-20 | Ion generation regulator by radioelement |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP7867184A JPS60222800A (en) | 1984-04-20 | 1984-04-20 | Ion generation regulator by radioelement |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPS60222800A true JPS60222800A (en) | 1985-11-07 |
Family
ID=13668328
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP7867184A Pending JPS60222800A (en) | 1984-04-20 | 1984-04-20 | Ion generation regulator by radioelement |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS60222800A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH01188478A (en) * | 1988-01-20 | 1989-07-27 | Nobusane Tateno | Porous pottery object containing radioactive isotope and its production and alpha ray taking out device |
| JP2018025535A (en) * | 2016-08-05 | 2018-02-15 | 株式会社リコー | Ion detection device, cleaning air generation device, and measuring system |
-
1984
- 1984-04-20 JP JP7867184A patent/JPS60222800A/en active Pending
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH01188478A (en) * | 1988-01-20 | 1989-07-27 | Nobusane Tateno | Porous pottery object containing radioactive isotope and its production and alpha ray taking out device |
| JP2018025535A (en) * | 2016-08-05 | 2018-02-15 | 株式会社リコー | Ion detection device, cleaning air generation device, and measuring system |
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