JPH1190454A - Fluid ionizing apparatus using magnet - Google Patents
Fluid ionizing apparatus using magnetInfo
- Publication number
- JPH1190454A JPH1190454A JP26787397A JP26787397A JPH1190454A JP H1190454 A JPH1190454 A JP H1190454A JP 26787397 A JP26787397 A JP 26787397A JP 26787397 A JP26787397 A JP 26787397A JP H1190454 A JPH1190454 A JP H1190454A
- Authority
- JP
- Japan
- Prior art keywords
- pipe
- magnet
- magnets
- fluid
- magnetic
- 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.)
- Granted
Links
Classifications
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F1/00—Treatment of water, waste water, or sewage
- C02F1/48—Treatment of water, waste water, or sewage with magnetic or electric fields
- C02F1/481—Treatment of water, waste water, or sewage with magnetic or electric fields using permanent magnets
- C02F1/482—Treatment of water, waste water, or sewage with magnetic or electric fields using permanent magnets located on the outer wall of the treatment device, i.e. not in contact with the liquid to be treated, e.g. detachable
Landscapes
- Water Treatment By Electricity Or Magnetism (AREA)
- Physical Or Chemical Processes And Apparatus (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、流体流通用のパイ
プを保護するとともに、パイプ内をイオン化するための
装置に関し、具体的には改良されたパイプ保護及び流体
活性化のための磁石を用いた流体イオン化の装置に関す
るものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for protecting a pipe for fluid flow and for ionizing the inside of the pipe, and more particularly to a device for protecting a pipe for fluid circulation and using a magnet for improved pipe protection and fluid activation. Related to a fluid ionization device.
【0002】[0002]
【従来の技術】水の流れる鋼製のパイプは、通常はスケ
ール、腐食及び藻類の影響を受ける。その結果、パイプ
は管路を狭められたり弱化して、流量が少なくなった
り、破裂を生じることさえある。その根本的な原因は、
「パイプの電荷化」として知られている。すなわち、パ
イプの内部を流れる流体がパイプ内壁に関して静電イン
ターフェースをつくり、内壁に陽電荷を与える。BACKGROUND OF THE INVENTION Water flowing steel pipes are usually affected by scale, corrosion and algae. As a result, the pipe may be narrowed or weakened, resulting in lower flow rates or even rupture. The root cause is
This is known as "charging the pipe". That is, the fluid flowing inside the pipe creates an electrostatic interface with respect to the pipe inner wall and imparts a positive charge to the inner wall.
【0003】水中に多く含まれる炭酸カルシウムは陽電
荷を帯びたパイプに引きつけられ、カルシウム塩がパイ
プ壁に溜まって方解石の沈殿物、つまりスケールを形成
し、、水の流量を妨げるようになる。陽電荷を帯びたパ
イプは、双極性イオン水分子の陰の酸素側を引きつけ、
これがこのパイプのイオンと結合して酸化物イオン、つ
まり錆または腐食を形成してパイプを弱めることにもな
る。さらに藻類は、陽電荷を帯びたパイプ内壁に引きつ
けられて付着し、増殖して厚いヘドロを形成してパイプ
を侵食することになる。この結果生じる微生物腐食もパ
イプ壁を侵食し、流体の流量を減らすことになる。スケ
ール、腐食、藻類の成長という3つの効果によって、流
量とパイプの効率を下げ、洩れや場合によっては破裂の
原因になる。[0003] Calcium carbonate, which is abundant in water, is attracted to a positively charged pipe, and calcium salts accumulate on the pipe wall to form a calcite precipitate, that is, scale, which impedes the flow of water. The positively charged pipe attracts the negative oxygen side of the zwitterionic water molecule,
This can also combine with the ions of this pipe to form oxide ions, rust or corrosion, which weakens the pipe. In addition, the algae are attracted to and adhere to the inner wall of the positively charged pipe, grow and form a thick sludge, and erode the pipe. The resulting microbial corrosion will also erode the pipe walls and reduce the fluid flow. The three effects of scale, corrosion and algae growth reduce flow and pipe efficiency, causing leaks and possibly rupture.
【0004】酸類や多種類の殺生物剤のような毒性のあ
る化学品は、これらを予防したり、溶解したり、パイプ
から除去する効果があるが、継続的に補給しなければな
らないのでコスト高になるほか、化学品は人にも環境に
も有害である。パイプの外から内部に磁界を形成する磁
気装置が、パイプ内のスケール、腐食及び藻類の防止に
使われてきた。これらの装置は、パイプに沿って軸方向
に配置された相反する極性の複数の磁石から成り、これ
らの磁石は、水流の方向と平行な磁力線をもって、非鉄
パイプの中に向けて磁界を放出している。一般に導体が
磁力線を横切ると導体の中に電流が発生するが、磁力線
に平行に動く導体は電流を発生しないので、これらの装
置は電流を発生しない。したがってこれらの装置は、パ
イプ壁に陰電荷を与えて、堆積物、腐食、藻類の防止を
させることには効果がない。Toxic chemicals, such as acids and various biocides, are effective in preventing, dissolving, and removing them from pipes, but they must be replenished continuously and therefore costly. Besides being expensive, chemicals are harmful to humans and the environment. Magnetic devices that create a magnetic field from outside to inside a pipe have been used to prevent scale, corrosion and algae within the pipe. These devices consist of a plurality of magnets of opposite polarities arranged axially along the pipe, which magnets emit a magnetic field into the non-ferrous pipe with lines of magnetic field parallel to the direction of the water flow. ing. Generally, when a conductor crosses a magnetic field line, a current is generated in the conductor, but these devices do not generate a current because a conductor that moves parallel to the magnetic field line does not generate a current. Thus, these devices are ineffective at imparting a negative charge to the pipe wall to prevent sediment, corrosion and algae.
【0005】[0005]
【発明が解決しようとする課題】本発明は、上記問題点
を解決するために流体の流れ方向に対して完全に又は概
ね垂直な磁力線を持つ磁界を発生させ、パイプに陰電荷
を与え、パイプの炭酸塩、酸素及び藻類を除去して、堆
積物、腐食及び藻類の成長に対してパイプを保護し、各
種直径のパイプに合うように簡単に調整でき、鋼製のパ
イプ及び非鉄パイプを保護し、設置及び調節が簡単で、
小型で、さらに簡単且つ経済的に製造できる流体イオン
化装置を提供するものである。SUMMARY OF THE INVENTION The present invention solves the above problems by generating a magnetic field having lines of magnetic force completely or substantially perpendicular to the flow direction of a fluid, giving a negative charge to the pipe, Removes carbonate, oxygen and algae, protects pipes against sediment, corrosion and algae growth, can be easily adjusted to fit different diameter pipes, protects steel pipes and non-ferrous pipes Easy to install and adjust,
An object of the present invention is to provide a fluid ionization apparatus which is small in size and can be manufactured easily and economically.
【0006】[0006]
【課題を解決するための手段】上記問題点を解決するた
めの本発明の装置は、第1に中空の流体流通用のパイプ
4の回りに、磁極を構成する先端が上記パイプ4に対し
て内向きとなるように配設される少なくとも一対の磁石
2と、上記磁石2を基端部側において相互に固定するコ
ネクター1とで磁石2のユニット3を形成し、該ユニッ
ト3を隣接する磁石2,2の先端同士が異なる磁極をも
って当該磁極間に磁界を形成し且つその磁界の磁力線の
方向がパイプ4の軸芯と略直交するように上記磁石2を
前記パイプ4の回りに配置する構造とし、上記ユニット
3をパイプ4の回りに固定する固定手段6を設けてなる
ことを特徴としている。According to the apparatus of the present invention for solving the above-mentioned problems, first, a tip constituting a magnetic pole is formed around a hollow fluid pipe for pipe flow 4 with respect to the pipe 4. A unit 3 of magnets 2 is formed by at least a pair of magnets 2 arranged to face inward and a connector 1 for fixing the magnets 2 to each other at a base end side, and the unit 3 is connected to an adjacent magnet. A structure in which a magnetic field is formed between the magnetic poles having different magnetic poles at the tips of the magnets 2 and 2, and the magnet 2 is arranged around the pipe 4 such that the direction of the line of magnetic force of the magnetic field is substantially orthogonal to the axis of the pipe 4. And a fixing means 6 for fixing the unit 3 around the pipe 4.
【0007】第2に各磁石2の先端にパイプ4内に形成
される磁界の磁束密度を高めるコンセントレータ7を取
り付けてなることを特徴としている。Secondly, a concentrator 7 for increasing the magnetic flux density of the magnetic field formed in the pipe 4 is attached to the tip of each magnet 2.
【0008】第3にコンセントレータ7の基端部のサイ
ズを磁石2の端面に対応させて大サイズとし、先端部の
サイズを磁束を集中させるべく小サイズとして全体を台
形状に形成したことを特徴としている。Third, the size of the base end of the concentrator 7 is made large corresponding to the end face of the magnet 2, and the size of the tip is made small so as to concentrate magnetic flux, and the whole is formed in a trapezoidal shape. And
【0009】第4にコネクター7が樋状の断面に形成さ
れたプレートからなり、該樋状断面の内側に先端の磁極
が同一の又は異なる磁極の磁石2を内向きに突設固定
し、樋状断面の両側に他のコネクター1と連結固定する
ための固定部8を設け、パイプ4の回りに複数のユニッ
トを連結して固定する構造としたことを特徴としてい
る。Fourth, the connector 7 is formed of a plate formed in a gutter-shaped cross section, and the magnets 2 having the same or different magnetic poles are protruded and fixed inwardly inside the gutter-shaped cross section. A fixing portion 8 for connecting and fixing with another connector 1 is provided on both sides of the cross section, and a plurality of units are connected and fixed around the pipe 4.
【0010】[0010]
【発明の実施の形態】図面は本発明の1実施形態を示
し、この例ではコネクター1の内部に一対の磁極の異な
る磁石2を直交方向に突設配置して磁石のユニット3を
形成し、一組のユニット3,3を水道管等の流体流通用
パイプ4の回りに2カ所装着し、締付ボルト等の固定手
段6で固定したものを示している。BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows an embodiment of the present invention. In this example, a pair of magnets 2 having a pair of magnetic poles having different magnetic poles are arranged in a connector 1 so as to protrude in an orthogonal direction to form a magnet unit 3. A set of units 3 and 3 is mounted at two places around a fluid distribution pipe 4 such as a water pipe and fixed by fixing means 6 such as a tightening bolt.
【0011】磁石2は例えば16×65×30(mm)
の直方体状のネオジム・ホウ素鉄(Nd−Fe−B)等
からなる磁束密度のきわめて高いものが使用され、その
先端(内端)には先端が細くなって台形状の磁性体から
なるコンセントレータ7が付着固定して取り付けられて
おり、そのサイズは底面が磁石2の先端面と同一である
のに対し、先端面は幅,長さ共に約1/2、高さ約11
mmとなっている。コンセントレータ7は磁石2の先端
の磁束密度を集中させて高めるもので、例えば磁石2の
先端面側の磁束密度が3900ガウスであるのに対し、
コンセントレータ先端面では7800ガウスに集中され
ている。The magnet 2 is, for example, 16 × 65 × 30 (mm)
A very high magnetic flux density such as a rectangular parallelepiped neodymium boron iron (Nd-Fe-B) or the like is used, and the tip (inner end) is made of a trapezoidal magnetic material with a narrow tip. Are attached and fixed. The size of the bottom surface is the same as the tip surface of the magnet 2, while the tip surface is about 1/2 in both width and length and about 11 in height.
mm. The concentrator 7 concentrates and increases the magnetic flux density at the tip of the magnet 2. For example, while the magnetic flux density at the tip face side of the magnet 2 is 3900 gauss,
At the concentrator tip, it is concentrated at 7800 gauss.
【0012】コネクター1は樋状(又はチャンネル状)
断面に折曲形成された磁性材(鉄)のプレートからな
り、その開放端側にはパイプ4に取り付け固定する際の
固定部8となるフランジ部が延設されるとともに、チャ
ンネル状断面内の2つのコーナーには、プレートと45
°の角度をなす折曲部1a,1aが形成され、その内面
に磁石2が互いに略直角の交差角をもって内向きに突出
するように基端部において固着されてユニット3を構成
しており、コンセントレータ7の先端面以外は全体がポ
リマーによる焼き付け塗装等により、防水及び防錆加工
が施されている。The connector 1 has a gutter shape (or a channel shape).
It is made of a magnetic material (iron) plate bent in cross section, and a flange portion serving as a fixing portion 8 when attached and fixed to the pipe 4 is extended from an open end side thereof, and is provided in a channel-shaped cross section. The two corners have a plate and 45
Degrees are formed at the base end of the magnet 3 so as to protrude inward at an inner surface thereof at a substantially right angle of intersection, thereby forming a unit 3. Except for the end face of the concentrator 7, the whole is waterproofed and rustproofed by baking coating with a polymer or the like.
【0013】そして2つのユニット3,3は各磁石2の
先端が互いにパイプ4の中心に向くように重ね合わさ
れ、固定部8同士が挿通孔9に挿通されるボルトからな
る固定手段6によって締着固定され、各磁石2はパイプ
4の周面に略均等な角度間隔でコンセントレータ7の端
面が相互に直角又は平行な接線となるように押接固定さ
れている。The two units 3 and 3 are overlapped so that the tips of the magnets 2 face each other toward the center of the pipe 4, and the fixing portions 8 are fastened by fixing means 6 comprising bolts inserted into the insertion holes 9. The magnets 2 are fixed to the peripheral surface of the pipe 4 at substantially equal angular intervals so that the end faces of the concentrator 7 are tangent to each other at right angles or parallel to each other.
【0014】この時図1に示すようにパイプ4の回りに
は4個の磁石2が配置されているが、例えば上下共に隣
接する左右の磁石2,2の先端は極性の異なる磁石を対
にし、左右の磁石2,2間では磁力線がNからSに向か
う磁界が形成されている。そして上下方向に隣接する磁
石2,2間では互いに異なる磁界を形成するように同極
同士を隣接させて配置している。At this time, as shown in FIG. 1, four magnets 2 are arranged around the pipe 4. For example, the tips of the left and right magnets 2, 2 which are vertically adjacent to each other, are formed by magnets having different polarities. A magnetic field is formed between the left and right magnets 2 and 2 with magnetic lines of force going from N to S. The same poles are arranged adjacent to each other so as to form mutually different magnetic fields between the vertically adjacent magnets 2.
【0015】上記構造により上下の磁界における磁束密
度は他に拡散することなくパイプ内でより高い密度で強
力な磁界を形成する。例えば上記ユニット3を30mm
径の塩ビパイプ4の回りに装着固定した場合、図1のパ
イプ4の中心位置O1で950〜1100ガウス、下部
磁界(上部も同じ)のS,N極間の位置O2で270〜
450ガウス計測された。ちなみに4個の磁石2をいず
れも同一極性にしたものの同位置の磁束密度は上記値の
18〜25%に低下する。With the above structure, the magnetic flux density in the upper and lower magnetic fields forms a strong magnetic field with a higher density in the pipe without being diffused. For example, the unit 3 is 30 mm
When mounted fixed around the diameter of the PVC pipe 4, the center position O 1 in 950-1100 Gauss pipe 4 of Figure 1, S of the lower magnetic field (upper versa), at the position O 2 of the N interpolar 270 to
450 Gauss was measured. Incidentally, although the four magnets 2 have the same polarity, the magnetic flux density at the same position is reduced to 18 to 25% of the above value.
【0016】上記のように構成されるユニット3は図3
に示すようにパイプ4に対して複数個近接し、又は適度
な間隔を介して取り付けることができるほか、単独で例
えば建物の壁面に沿って配管されたパイプ4に被せるよ
うにして、壁面自体に締着して取り付けることもでき
る。The unit 3 configured as described above is shown in FIG.
A plurality of pipes can be attached to the pipe 4 in close proximity or at an appropriate interval as shown in FIG. It can also be fastened and attached.
【0017】以上説明したようにコネクター1及び磁石
のユニット3は概ね馬蹄形の磁石を形成しており、N,
S両極は非常に近接してパイプ内に強い磁界を形成して
いる。コンセントレータ7の先端の幅はパイプ4の肉厚
よりも大きく、コンセントレータ7はパイプ4の管壁の
磁気浸透率と同等又はそれ以上に、磁気的に飽和してい
る。この結果コンセントレータ7から出る高密度の磁束
は、管壁を突き抜け、図示されているように曲線路の磁
束線としてパイプ4の中に突出し、S極に達している。
磁石2からコンセントレータ7の遠端までの距離が短い
ので、磁場の強度が最大となる。As described above, the connector 1 and the magnet unit 3 form a substantially horseshoe-shaped magnet.
The S-poles are very close to form a strong magnetic field in the pipe. The width of the tip of the concentrator 7 is larger than the wall thickness of the pipe 4, and the concentrator 7 is magnetically saturated to the same or higher than the magnetic permeability of the pipe wall of the pipe 4. As a result, the high-density magnetic flux exiting the concentrator 7 penetrates through the pipe wall, protrudes into the pipe 4 as a curved magnetic flux line as shown, and reaches the south pole.
Since the distance from the magnet 2 to the far end of the concentrator 7 is short, the strength of the magnetic field is maximized.
【0018】磁力線はすべて水流Fの方向に対して略直
角であるので、水の動きによって常に最大限カットさ
れ、もっとも効率の高い、最大限の電流を発生する。し
たがって、水とパイプ4の間には比較的強い電流が流れ
て、パイプ4に十分な陰電荷を与える。金属パイプを用
いた場合、陰電荷を帯びたパイプ4は、炭酸塩や酸素の
ようなあらゆる陰イオンを排除するので、堆積物や腐食
が防止できる。さらに、藻類が付着するには陽電荷を帯
びた表面が必要なので、陰電荷を帯びたパイプ4には藻
類は付着しない。結果としてパイプ4は清浄に保たれ
て、流量とパイプの強度が保たれる。Since the lines of magnetic force are all substantially perpendicular to the direction of the water flow F, they are always cut to the maximum by the movement of the water and generate the most efficient and maximum current. Therefore, a relatively strong current flows between the water and the pipe 4 to give the pipe 4 a sufficient negative charge. When a metal pipe is used, the negatively charged pipe 4 eliminates all anions such as carbonate and oxygen, so that deposits and corrosion can be prevented. Furthermore, since a positively charged surface is required for the algae to adhere, the algae do not adhere to the negatively charged pipe 4. As a result, the pipe 4 is kept clean and the flow rate and the strength of the pipe are maintained.
【0019】もしパイプ4がすでにスケール、腐食、藻
類が付着していても、電磁パイプ保護装置によって、こ
れらの有害物を除去することができる。陰電荷を帯びた
パイプ4によって、水中の陽水素が陰の方解石堆積物と
結合して、方解石堆積物が重炭酸カルシウムと水に溶解
し、水流によって運び去られる。したがってスケールは
除去され、堆積物が発生しなくなる。Even if the pipe 4 has scale, corrosion, or algae, these harmful substances can be removed by the electromagnetic pipe protection device. By means of the negatively charged pipe 4, positrons in the water combine with the negative calcite deposits and the calcite deposits dissolve in the calcium bicarbonate and the water and are carried away by the water stream. Thus, the scale is removed and no deposits are generated.
【0020】さらに陰電荷を帯びたパイプ4によって、
水中の陽水素が酸化鉄(パイプが鉄の場合)すなわち錆
と結合して、腐食は水と鉄に溶解し、水流によって運び
去られる。陽電荷を帯びた水と陰電荷を帯びたパイプ4
は、藻類の細胞***を妨害するので、付着した藻類がヘ
ドロ層を保ち成長を続けることが妨げる。したがって藻
類は急速に死滅し、水流によって運び去られ、それ以上
の藻類の付着と成長は、陰電荷を帯びたパイプ4によっ
て阻止される。Further, by means of the negatively charged pipe 4,
Hydrogen hydrogen in the water combines with iron oxide (if the pipe is iron) or rust, and the corrosion dissolves in the water and iron and is carried away by the water stream. Positively charged water and negatively charged pipe 4
Inhibits the cell division of algae, thereby preventing the attached algae from keeping a sludge layer and continuing to grow. Thus, the algae die rapidly, are carried away by the water stream, and further algae deposition and growth are prevented by the negatively charged pipe 4.
【0021】上記説明はパイプ4内において単純に水が
流通する場合のみについて行ったが、本発明は、原油,
天然ガス,ガソリン,ディーゼル及び燃料油のパイプ
や、冷却,加熱,調理,洗濯,潅漑,水泳プール,泉
水,飲料水のパイプを含む、あらゆる流体運搬用のパイ
プにも応用できる。流体が水のように導電体でない場合
には磁力線通過時に電流を生じることなはないが、陰電
荷を与えて分子に活性を与えることは可能である。Although the above description has been made only for the case where water is simply circulated in the pipe 4, the present invention
It can be applied to any pipe for carrying fluids, including natural gas, gasoline, diesel and fuel oil pipes, as well as pipes for cooling, heating, cooking, washing, irrigation, swimming pools, spring water and drinking water. If the fluid is not a conductor such as water, no current is generated when passing through the magnetic field lines, but it is possible to impart a negative charge to give the molecule activity.
【0022】そして繰り返し発生する費用や、高価な毒
性化学品を使う従来のパイプ処理を必要としない。少数
の磁石で非常に高い効果を収めることができる。本装置
は非常に小型なので、パイプの同じ断面に複数の装置を
設置して、より高い効果を収めることができる。鋼製の
パイプに磁気的に簡単に装着され、一方では各種直径の
パイプに合うように簡単に調整することができる。既に
例示したように非金属や非鉄製のパイプの保護にも使用
することができる。There is no need for recurring costs or conventional pipe processing using expensive toxic chemicals. Very high efficiency can be achieved with a small number of magnets. Because the device is very small, multiple devices can be installed on the same cross section of the pipe to achieve higher effects. It is magnetically easily mounted on steel pipes, while it can be easily adjusted to fit various diameter pipes. It can also be used to protect non-metallic or non-ferrous pipes as already exemplified.
【0023】本発明の技術の中で、ほかの多くの応用と
変形が可能であり、例えば各種の永久磁石や電磁石を使
うことができる。部品の形状は各種あり、例えば永久磁
石の形状は直方体には限られない。Many other applications and modifications of the technology of the present invention are possible, for example, various permanent magnets and electromagnets can be used. There are various shapes of the parts, and for example, the shape of the permanent magnet is not limited to a rectangular parallelepiped.
【0024】[0024]
【発明の効果】以上のように構成される本発明によれ
ば、構造が簡単で低コストな装置により、流体流通用の
パイプの汚れや腐食、不純物の付着等の防止ができ、流
体自体の活性化等を実現することが可能である。According to the present invention constructed as described above, it is possible to prevent dirt and corrosion of a pipe for fluid distribution, adhesion of impurities, and the like by using a device having a simple structure and a low cost. Activation or the like can be realized.
【図1】本発明装置のパイプへの装着状態を示す断面図
である。FIG. 1 is a cross-sectional view showing a state where the device of the present invention is mounted on a pipe.
【図2】本発明部品である磁石ユニットの斜視図であ
る。FIG. 2 is a perspective view of a magnet unit which is a component of the present invention.
【図3】本発明装置のパイプへの装着状態を示す斜視図
である。FIG. 3 is a perspective view showing a state where the device of the present invention is mounted on a pipe.
1 コネクター 2 磁石 3 ユニット 4 パイプ 6 固定手段 7 コンセントレータ 8 固定部 DESCRIPTION OF SYMBOLS 1 Connector 2 Magnet 3 Unit 4 Pipe 6 Fixing means 7 Concentrator 8 Fixing part
Claims (4)
に、磁極を構成する先端が上記パイプ(4)に対して内
向きとなるように配設される少なくとも一対の磁石
(2)と、上記磁石(2)を基端部側において相互に固
定するコネクター(1)とで磁石(2)のユニット
(3)を形成し、該ユニット(3)を隣接する磁石
(2),(2)の先端同士が異なる磁極をもって当該磁
極間に磁界を形成し且つその磁界の磁力線の方向がパイ
プ(4)の軸芯と略直交するように上記磁石(2)を前
記パイプ(4)の回りに配置する構造とし、上記ユニッ
ト(3)をパイプ(4)の回りに固定する固定手段
(6)を設けてなる磁石を用いた流体イオン化装置。At least one pair of magnets (2) arranged around a hollow fluid pipe (4) such that a tip constituting a magnetic pole faces inward with respect to the pipe (4). And a connector (1) for fixing the magnet (2) to each other at the base end side, to form a unit (3) of the magnet (2), and the unit (3) is connected to the adjacent magnets (2), ( The magnet (2) is connected to the pipe (4) such that the magnetic field is formed between the magnetic poles with different magnetic poles at the tip of 2) and the direction of the magnetic field lines of the magnetic field is substantially orthogonal to the axis of the pipe (4). A fluid ionization apparatus using a magnet having a structure arranged around and provided with fixing means (6) for fixing the unit (3) around the pipe (4).
形成される磁界の磁束密度を高めるコンセントレータ
(7)を取り付けてなる請求項1の磁石を用いた流体イ
オン化装置。2. The fluid ionization apparatus using magnets according to claim 1, wherein a concentrator (7) for increasing the magnetic flux density of a magnetic field formed in the pipe (4) is attached to a tip of each magnet (2).
ズを磁石(2)の端面に対応させて大サイズとし、先端
部のサイズを磁束を集中させるべく小サイズとして全体
を台形状に形成した請求項1又は2の磁石を用いた流体
イオン化装置。3. The concentrator (7) has a base end portion having a large size corresponding to the end surface of the magnet (2), and a tip end portion having a small size for concentrating magnetic flux, and having a trapezoidal shape as a whole. A fluid ionization device using the magnet according to claim 1.
れたプレートからなり、該樋状断面の内側に先端の磁極
が同一の又は異なる磁極の磁石(2)を内向きに突設固
定し、樋状断面の両側に他のコネクター(1)と連結固
定するための固定部(8)を設け、パイプ(4)の回り
に複数のユニットを連結して固定する構造とした請求項
1又は2又は3の磁石を用いた流体イオン化装置。4. A connector (7) comprising a plate formed in a gutter-shaped cross section, and a magnet (2) having the same or different magnetic pole at the tip protruding inward and fixed inside the gutter-shaped cross section. A fixing portion (8) for connecting and fixing with another connector (1) is provided on both sides of the gutter-shaped cross section, and a plurality of units are connected and fixed around the pipe (4). Or a fluid ionizer using two or three magnets.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP26787397A JP3350640B2 (en) | 1997-09-12 | 1997-09-12 | Fluid ionizer using magnet |
| TW87107840A TW387047B (en) | 1997-09-12 | 1998-05-20 | Fluid ionizing device using magnet |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP26787397A JP3350640B2 (en) | 1997-09-12 | 1997-09-12 | Fluid ionizer using magnet |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH1190454A true JPH1190454A (en) | 1999-04-06 |
| JP3350640B2 JP3350640B2 (en) | 2002-11-25 |
Family
ID=17450821
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP26787397A Expired - Fee Related JP3350640B2 (en) | 1997-09-12 | 1997-09-12 | Fluid ionizer using magnet |
Country Status (2)
| Country | Link |
|---|---|
| JP (1) | JP3350640B2 (en) |
| TW (1) | TW387047B (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005169358A (en) * | 2003-12-15 | 2005-06-30 | Aaku Quest:Kk | Magnetized water vessel |
| CN112028265A (en) * | 2020-11-02 | 2020-12-04 | 常州爱伊自动化科技有限公司 | Multifunctional scale inhibiting and removing device for pipeline |
| CN112028264A (en) * | 2020-11-02 | 2020-12-04 | 常州爱伊自动化科技有限公司 | Use method of multifunctional pipeline scale inhibiting and removing device |
| CN113431981A (en) * | 2021-07-09 | 2021-09-24 | 重庆交通大学 | Prevent tunnel drain pipe of crystallization jam |
-
1997
- 1997-09-12 JP JP26787397A patent/JP3350640B2/en not_active Expired - Fee Related
-
1998
- 1998-05-20 TW TW87107840A patent/TW387047B/en not_active IP Right Cessation
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2005169358A (en) * | 2003-12-15 | 2005-06-30 | Aaku Quest:Kk | Magnetized water vessel |
| CN112028265A (en) * | 2020-11-02 | 2020-12-04 | 常州爱伊自动化科技有限公司 | Multifunctional scale inhibiting and removing device for pipeline |
| CN112028264A (en) * | 2020-11-02 | 2020-12-04 | 常州爱伊自动化科技有限公司 | Use method of multifunctional pipeline scale inhibiting and removing device |
| CN112028264B (en) * | 2020-11-02 | 2021-01-26 | 常州爱伊自动化科技有限公司 | Use method of multifunctional pipeline scale inhibiting and removing device |
| CN113431981A (en) * | 2021-07-09 | 2021-09-24 | 重庆交通大学 | Prevent tunnel drain pipe of crystallization jam |
Also Published As
| Publication number | Publication date |
|---|---|
| JP3350640B2 (en) | 2002-11-25 |
| TW387047B (en) | 2000-04-11 |
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