JPS59189991A - Water disposal device - Google Patents

Abstract

PURPOSE:To expose flowing water to a magnetic field at the maximum, by providing flat opposite poles faced to each other through a flat passage at both outer surfaces of a plurality of flat passages comprising a nonmagnetic material, and further providing mixer chambers for flowing water at both longitudinal ends of the flat passages. CONSTITUTION:Water having flowed in through a connecting pipe 1 at one side is branched and circulated through each flat passage 5. At both surfaces of each flat passage 5, flat magnets 7 of opposite polarities are alternatively arranged along a flowing direction in a manner such that the magnets 7 of opposite polarities are faced to each other through the flat passage 5. Hence, magnetic flux vertical to the flowing direction of each flat passage 5 crosses the flat passage 5 while alternatively changing its direction. Consequently, the water branched from the mixer chamber 4 into each flat passage 5 is uniformly sufficiently exposed to the magnetic flux alternatively changing its direction vertically to the flowing.

Description

【発明の詳細な説明】 本発明は鉄系配管材の発錆を少なくすることと、水あか
、の何層を少なくするために水を処理する装置、特に水
が平板状流路を通過するときに水を磁界にさらす装置に
係るものである。[Detailed Description of the Invention] The present invention relates to a device for treating water in order to reduce rusting of iron-based piping materials and to reduce the number of layers of water scale, especially when water passes through a flat flow path. This relates to a device that exposes water to a magnetic field.

工場・事務所等の配管設ｉを形成するパイプ、ボイラ、
冷暖房機器等で問題になることは、鉄系材料の発錆によ
る流路面積の減少であシ、それが甚だしい場合は材料の
穴あきによる水の漏洩、水あか、湯あか等の内面への付
着による流路面積の減少、熱効率の低下等が発生するこ
とである。そしてこれを防止するために、化学薬品によ
シ水を調整するか、磁気的水処理装置により水を調整す
る必要がある。Pipes, boilers, etc. that form piping installations in factories, offices, etc.
A problem with air conditioning equipment, etc. is a reduction in the flow path area due to rusting of iron-based materials, and in severe cases, water leakage due to holes in the material, water scale, hot water scale, etc. adhering to the inner surface. This results in a decrease in flow path area, a decrease in thermal efficiency, etc. In order to prevent this, it is necessary to condition the water with chemicals or with a magnetic water treatment device.

このような磁気的水処理装置の一つとして、米国％許第
４９５１，８０７号明細誉に記載されたものがある。こ
れは非研性ジャケットに枢結された長手方向に間隔をあ
けである磁極を有し、磁性材で作られた亜鉛引きの外部
ケーシング内に同心に位置決めされた細長い磁石を備え
たものである。そしてジャケットに収容された磁石はそ
れに固着した一対の段付カラーによシ中心決めされ、こ
れらのカラーは一対の外開きにした差込み片によシ中心
決めされている。しかしてこの種の磁気的水処理装Ｒは
良く知られているように、流水中に存在するカルシウム
またはその他の鉱物を吹き落しまたは洗い流しにより当
該装置から容易に取り除くことができるような軟かいス
ラリーとすることによシ、あかが集積するのを防止する
ものである。One such magnetic water treatment device is described in U.S. Pat. No. 4,951,807. It has longitudinally spaced magnetic poles pivotally connected to a non-abrasive jacket, with elongated magnets positioned concentrically within a galvanized outer casing made of magnetic material. . The magnet housed in the jacket is centered by a pair of stepped collars affixed thereto, and these collars are centered by a pair of outwardly opening insert pieces. However, it is well known that magnetic water treatment systems of this type are capable of producing a soft slurry which allows calcium or other minerals present in the flowing water to be easily removed from the system by blowing or washing away. This prevents dirt from accumulating.

本発明はこの防止効果をさらに効率的に具現するために
゛、非磁性体材料で作られた複数の平板状流路の両外面
に、該平板状流路を挾んで平板状磁極を異極を対向させ
て配置し、前記磁極よシ発する磁束線を前記平板状流路
を横断せしめて流水を磁界に最大限にさらすようにした
磁気的水処理装置を提供することを目的とするものであ
る。In order to achieve this prevention effect more efficiently, the present invention provides flat magnetic poles of different polarities on both outer surfaces of a plurality of flat flow channels made of non-magnetic material, sandwiching the flat flow channels. The object of the present invention is to provide a magnetic water treatment device in which the magnetic flux lines emitted from the magnetic poles are arranged to face each other and the magnetic flux lines emitted from the magnetic poles are made to cross the flat flow path to maximize the exposure of the flowing water to the magnetic field. be.

本発明の一実施例について第１図、第２図により詳細に
説明する。An embodiment of the present invention will be described in detail with reference to FIGS. 1 and 2.

銅・真ちゅうの如き非磁性材料で作られた複数の平板状
流路５を設ける。この平板状流路５の長さ対向の上下両
外面２．３に、両側の平面に磁極を有し平板状流路５の
長辺の全長を覆う平板磁石７を、−そのＮ極とＳ極の異
極が前記平板状流路５を挾んで対向するように設ける。A plurality of flat flow channels 5 made of non-magnetic material such as copper or brass are provided. On both the upper and lower outer surfaces 2.3 of the flat channel 5, which are opposite in length, there are flat magnets 7, which have magnetic poles on both planes and cover the entire length of the long sides of the flat channel 5. Different poles are provided so as to face each other with the flat flow path 5 interposed therebetween.

そして前記平板磁石７はプラスチック等の非磁性のスペ
ーサ８ｖＣより所定寸法隔てると共に水の流れ対向にＮ
極とＳ極の異極を交互に配置する。なおこの水の流れ対
向に配置する磁極数は少なくとも２個以上必要で、磁極
の強さと母極面積と平板状流路５の厚さ寸法と処理すべ
き水の流量等との関係にょシ決定されるものである。The flat magnet 7 is spaced apart by a predetermined distance from a non-magnetic spacer 8vC made of plastic or the like, and is placed in a direction opposite to the water flow.
Different poles of pole and S pole are arranged alternately. The number of magnetic poles placed opposite to this water flow must be at least two, and the relationship between the strength of the magnetic poles, the area of the base pole, the thickness of the flat channel 5, and the flow rate of the water to be treated is determined. It is something that will be done.

両側の平板状流路５．５の間の長方形空間６の厚さ寸法
はここに配置する平板磁石７の厚さ寸法に近く、この平
板磁石７を平板状流路外面３．３で挟着する。また各平
板状流路５．５の両外面２．２に接して配列された平板
磁石７とスペーサー８とを位置決め固定するために、平
板状流路５と平板磁石７との外面を覆う角筒カバー１１
を取９付ける。The thickness of the rectangular space 6 between the flat flow channels 5.5 on both sides is close to the thickness of the flat magnet 7 placed here, and the flat magnet 7 is sandwiched between the outer surfaces 3.3 of the flat flow channels. do. In addition, in order to position and fix the flat magnets 7 and spacers 8 arranged in contact with both outer surfaces 2.2 of each flat flow channel 5.5, corners covering the outer surfaces of the flat flow channels 5 and the flat magnets 7 are provided. Cylinder cover 11
Attach 9.

この角筒カバー１１の一方の端部は接続管１を貫通させ
る穴１２を設けた端部壁１３を有し、他力の端部は止ね
じ１４にょシ平板状流路５の外面２の止め金１０に固定
されている。この止め金１０は混合室４を包囲する形状
をしてお９接続管１が貫通している。角筒カバー１１と
止め金１０によシ端部スペーサ９、平板磁石７、スペー
サ８が平板状流路５の両外面に設置されるものである。One end of this square tube cover 11 has an end wall 13 provided with a hole 12 through which the connecting pipe 1 passes, and the other end has a set screw 14 on the outer surface 2 of the flat flow channel 5. It is fixed to a stopper 10. This stopper 10 has a shape that surrounds the mixing chamber 4, and a connecting pipe 1 passes through it. An end spacer 9, a flat magnet 7, and a spacer 8 are installed on both outer surfaces of the flat flow path 5 by means of a square tube cover 11 and a stopper 10.

この第１図に示す実施例では一方の接続管１よシ混合室
４に流入した水は分流して各平板状流路５を流れる。し
かして各平板状流路５の両面には流れ対向□に沿って異
極の平板研石７が交互に配列されておシ、まだ平板状流
路５を挾んで異極を対向させた平板磁石７が配列されて
いて、各平板状流路５の流れ方向ＶＣ＠角方向の磁束が
その方向を父互に異にして平板流路５を横切るものであ
る。In the embodiment shown in FIG. 1, water flowing into the mixing chamber 4 through one of the connecting pipes 1 is divided and flows through each flat channel 5. Therefore, on both sides of each flat flow path 5, flat grinding stones 7 of different polarities are arranged alternately along the flow opposite □. The magnets 7 are arranged so that the magnetic flux in the flow direction VC@angular direction of each flat flow path 5 crosses the flat flow path 5 in different directions.

従って混合室４より各平板状流路５に分流する水は前記
流れと直角対向の交互に方向の異なる磁束に均等に十分
さらされるものである。Therefore, the water branched from the mixing chamber 4 into each of the flat flow channels 5 is sufficiently exposed evenly to the magnetic fluxes which are perpendicularly opposed to the flow and alternately directed in different directions.

第３図は本発明の他の実施例を示すもので、平板状流路
５の両外面の対向する磁極の構成が一力が前記平板状磁
石７であシ、他力が鉄鋼等の強磁性材対極１５としたも
の士ある。従って平板状磁石７の使用数量が第１図の実
施例に比して少なくても同様の磁界処理を行うことがで
きるものである。FIG. 3 shows another embodiment of the present invention, in which magnetic poles facing each other on both outer surfaces of the flat flow path 5 are configured such that one force is generated by the flat magnet 7, and the other force is generated by a strong material such as steel. There is a case where a magnetic material counter electrode 15 is used. Therefore, even if the number of flat magnets 7 used is smaller than that of the embodiment shown in FIG. 1, the same magnetic field processing can be performed.

第４図は本発明のさらに他の実施例を示すものであり、
平板状流路５を四つの流路とした場合である。この実施
例も他の構成と作用は前記第３図の実施例と同様であシ
、このような流路と平板状磁極を構成することによシ経
済的に磁界処理を行う装置とすることができるものであ
る。FIG. 4 shows still another embodiment of the present invention,
This is a case where the flat plate-shaped channel 5 is made into four channels. This embodiment also has other configurations and functions similar to those of the embodiment shown in FIG. It is something that can be done.

上述のように本発明の装置は、処理水をその流れと直角
対向から均等かつ十分に磁束にさらすことができるので
、水処理を従来に比してさらに効率的に行うことができ
るものである。As described above, the apparatus of the present invention can uniformly and sufficiently expose treated water to magnetic flux from a direction perpendicular to the flow thereof, so that water treatment can be performed more efficiently than in the past. .

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は本発明の一実施例を示す縦断面図、第２図は第
１図のＡ−Ａ断面図、第３図は他の実施例を示す縦断面
図、第４図はさらに他の実施例を示す縦断面図である。 し・・接続管、２．６・・・平板状流路の外面、４・・
・混合室、５・・・平板状流路、７・・・平板研石、８
・・・スペーサ、９・・・端部スペーサ、１０・・・止
め金、１１・・・角筒カバー、１５・・・強磁性材対極
代理人弁理士　本　間　　　崇Fig. 1 is a longitudinal sectional view showing one embodiment of the present invention, Fig. 2 is a sectional view taken along line A-A in Fig. 1, Fig. 3 is a longitudinal sectional view showing another embodiment, and Fig. 4 is a longitudinal sectional view showing another embodiment. FIG. ... Connecting pipe, 2.6... Outer surface of flat flow path, 4...
・Mixing chamber, 5... Flat flow path, 7... Flat grinding stone, 8
・・・Spacer, 9... End spacer, 10... Stopper, 11... Square tube cover, 15... Ferromagnetic material counter electrode patent attorney Takashi Honma

Claims (1)

【特許請求の範囲】 １・　流水力向に永久磁石をその極性を父互に違えて配
置して形成された磁界中に流体を通すようにした水処理
装置において、非出性材料で作られた複数の平板状流路
の筒外面に、該平板状流路を挾んで平板状磁極を異極を
対問させて配置すると共に、前記平板状流路の流れ方向
の両端に流水が合流する混合室ケ設けたことを特徴とす
る水処理装置。 ２　前記平板状磁極を両面にｆＥ１極を有する平板磁石
とした特許請求の範囲第１項記載の水処理装置。 ＆　前記平板状流路の片側のｆＢｌｆＩｊＡを両面ｔ／
ｃｆＢ極を有する平板磁石とし、他の片面の磁極を強破
性体でできた平板磁極とした特許請求の範囲第１項記載
の装置。[Scope of Claims] 1. A water treatment device in which a fluid is passed through a magnetic field formed by arranging permanent magnets with different polarities in the direction of the flowing water force, which is made of a non-extractable material. Flat magnetic poles are disposed on the outer surfaces of the cylinders of the plurality of flat flow channels with different poles interposed between the flat flow channels, and flowing water joins both ends of the flat flow channels in the flow direction. A water treatment device characterized by having a mixing chamber. 2. The water treatment device according to claim 1, wherein the flat magnetic pole is a flat magnet having fE1 poles on both sides. & One side fBlfIjA of the flat plate-shaped channel is t/
2. The device according to claim 1, wherein the flat magnet has a cfB pole, and the other magnetic pole on one side is a flat magnetic pole made of a highly fractured material.