DE1642524A1 - Device for the treatment of flowing water by means of electromagnetic field lines - Google Patents

Description

Device for treating flowing water by means of electromagnetic Field lines.

The invention relates to a device for processing flowing in Water in piping systems and heat exchangers to avoid water or scale formation and to reduce electrochemical corrosion.

Such devices are installed where by disturbance of the Lime-carbonic acid equilibrium a separation of the hardness builders dissolved in the water takes place in the form of water or scale.

To avoid the formation of water or scale, the water processed by means of electromagnetic field lines.

Already known magnetic treatment devices work either with permanent magnets, whose magnetic field gradually weakens due to the natural aging of the magnetic materials, or with electromagnets, whose magnetic field direction for the flow direction of the water is not precisely defined, so the efficiency of known devices is different. The #P "rfindung is the task of an optimala of the Elektroaagr .., 3t4 # -mG-ben to thisj '#, according to the invention PGldo.'k" construction of the the flow direction of the Jasser to be treated perpendicular to the electromagnetic field lenses and that the magnetic field strength du-zch regulation the one lying on the electromagnet chemical composition and (#. n to be discovered CZ! Water is adapted. By using a Gle-Ich-Spannunz to generate the magnet.m "eldc- .: besides the, the Possibility of the Käthode of the Saanntz7- "Zsi" uelle with the To connect the housing of the device in an electrically conductive manner; although there is no counter electrode (anode): Lst "becomes thereby a protective effect against electrochemicals Corrosion reached. Because of the different electrical conductivity of metallic housing and the water to be treated will be sloh when used an undulating glow voltage on the building wall according to their better performance -,! - 'Zt die Build up charge faster a1-You in the Ulasser, so that at the Housing wall has a negative potential compared to the Water is achieved. As is well known, d-2 is due to a Sohutz3, ii-ki.mg against electrochemical, corrosion erxelcht. In the drawing there are four types of apples Device and the basic electrical circuit shown. Figure # 1 shows the longitudinal section through a Lori gasket. In the one made of non-magnetizable Housing 1 with the connecting pieces 2 bef # -7'-nd-.ii siüh zwel Elektroinagneteg their arc-shaped - 3 each one, semicircular $ magnetizable. Nerr, u # close. The two electromagnets are that between the ends of the semicircular, r; # - 7ii -2 e 3, i e, n; t "-, Ii # 3i!., # 7, # T2. Be elie eliek-t-zc) mae,. ## ite- #lj, # '- e-Len in de # uF spaces 5 171a n w en di, -'i;, # 4chtunz 13bIt or leul- 'ßl #%! lit almost c w #, chtimg leall daj, Figure 2 zelgt a Ausführungsbelsplel "in which the two Blektromagnete from two bobbins 6 and a U-shaped core Tbestehen. The two electromagnets are so eingebautg that the gaps arise 5. If the electromagnets are formed gelegty of tension in the intermediate spaces 5 magnetic fields whose Field lines have the direction UM or 'great and are thus perpendicular to the direction of flow tIalt of the Ulasser. Figure 3 shows the longitudinal section through a device in which the ring-shaped coil formers 8 of the electromagnetic magnet lie in two collar-shaped bodies 9 made of magnetizable plastic, which a IvUttelzapfen lo have higher connected magnetically conductive than Sohalenrand 11. the center pin lo are, between the shell edges 11 formed of the annular gap 12th

When the sheet metal magnet is connected to voltage, this occurs in the annular gap 12 a magnetic field whose field lines have the direction ublu and perpendicular to the direction of flow Stand up to the water.

Figure 4 shows the longitudinal section through a AusfühxungsbeispIel, in which the bobbin is located coaxially 13 to the housing and the magnetic field lines are bundled together by four pieces made of ferromagnetic Ifferkstoff: - coaxially located by the rod 149 within the Spulemltdrpers 13 and whose ends on both sides of the bobbin protrude - by two on the ends of the bobbin 13 rings 15 lying - 16 through the coaxial with the bobbin 13 sleeve through the apertured 19 disks 17 and 18 from nIchtmagnetIslerbarem Vierkstoff the rod 14, the rings 15 are of the The coil body 13 and the sleeve 16 are held in their position in such a way that the spaces 2o and 21 arise through which the water flows in the direction of Hall. If the metal magnet is energized, magnetic fields are formed between the rod 14 and the rings 13 and between the rings 15 and the sleeve 16 , the field lines of which are perpendicular to the flow direction Hall of the water.

Figure 5 shows the basic electrical circuit belonging to the device; it consists of the control transformer 229, the rectifier 23, the negative pole of which is connected to the housing 24, and the electromagnet 25.

Considered publications: Auslegeschrift 1 218 963 of the German Patent Office q Patent No. 838721 of the German Patent Office.

Claims (2)

Claims 1. A device for treating flowing water by means of magnetic field lines to avoid 'water or scale formation in piping systems and heat exchangers, characterized in that the flow direction of the water to be treated is perpendicular to the magnetic field lines of an electromagnet connected to a pulsating glow voltage. 2. Apparatus according to claim 1, characterized in that the magnetic field lines of the electromagnet are bundled by two semicircular cores (4). 3. Apparatus according to claim 1, characterized in that the magnetic field lines of the electromagnet are bundled by two U-shaped cores (7). 4. Apparatus according to claim 19, characterized in that the magnetic Feldlinlen of the Elektromagheten are bundled by two shell-shaped bodies (9) ,., Metically conductively connected whose central pin (lo) are mao and between the shell edges (11) an annular gap (1 2) is available. 5. Device according to claim 1, characterized in that the magnetic field lines of a Blektromagneten are focused by a total of four ferromagnetisohe components, namely a rod '(14) coaxially to the magnet coil, each a ring (15) at the two ends of the solenoid coil and a sleeve (16) coaxially around the solenoid. The ferromagnetic components are arranged in such a way that the water can flow coaxially to the magnetic coil in defined gaps. 6. Apparatus according to claim 12, characterized in that the magnetic field strength of the electromagnet can be regulated. 7 & Device according to Claim 1, characterized in that several electromagnets can be connected in series and / or in parallel in a housing, as required. 8. The device according to claim 1 .. dadur - #., H characterized in that the housing of the Vorrichtun.3 is connected to the cathode of the Gleiohapannungsquelle.