DE489173C - Magnetic separator for removing magnetically attractable components from liquid streams - Google Patents

Description

Magnetic separator for removing magnetically attractable components from liquid flows The invention relates to magnetic separators for removing magnetically attractable components from liquid flows, in which several magnet systems are immersed in the flow of liquid in a rake-like manner. Separators of this type are already known in which the liquid stream flows through magnetic fields several times in succession, so that repeated separation takes place. However, the magnetic fields are equally strong among these separators. As a result, the first magnetic field is much more heavily loaded with magnetic substances than the following; the utilization of the separator is therefore unfavorable. In another known ring-shaped separator, sludge enters the inside of the device and successively flows through two polar circles arranged concentrically to one another in the radial direction. The sludge first passes through the stronger and then the weaker magnetic field. Such an arrangement is of course even more inexpedient, since the weaker magnetic field has almost no effect on the current that has already flowed through the stronger magnetic field. The aim of the invention is to design magnetic separators of the type mentioned in the introduction in such a way that the strength of the fields generated by the magnetic systems increases gradually in the direction of flow of the liquid.

The invention is illustrated in the drawing, for example.

Fig. I is a vertical section through a magnetic separator, Fig. 2 is a corresponding side view and Fig. 3 is a section along the line A-A in Figs.

Fig.q. represents a section corresponding to Fig. 3 for an annular trained magnetic separator.

In a magnet housing i an excitation winding 2 is arranged, which comprises a central, downwardly projecting leg 3 of the housing. With this Leg 3 is a holding plate q. connected, the side edges of which are serrated _ (see Fig. 3). While the plate q. each carries a row of pole fingers 5, 6, grab pole fingers 9 arranged in two rows on the side walls 7, 8 of the housing i, io into rows 5, 6 (see Fig. 2), so that two magnetic fields of alternating Polarity arises .. The pole fingers fi and 9 of one row are of lesser magnitude Diameter than the pole fingers 6 and io of the other row; the field strength thus increases in the current direction x to. This ensures that initially the stronger magnetic Components of the liquid flow are excreted. It takes place evenly Loading of all pole fingers takes place, which ensures full utilization of the separator will.

In order to achieve a further increase in the magnetic field strength, you can the pole fingers should be provided with projections or sharp edges that are useful over the entire surrounding area, but at least over the surfaces facing each other are distributed. In the illustrated embodiments, for example, are the pole fingers provided with screw thread for this purpose.

As can be seen from the drawing, the pole fingers are exchangeable attached. This makes cleaning the pole fingers easier. Furthermore it will enables individual pole fingers or all of them to be exchanged and their diameters to adapt to the desired strength of the magnetic fields.

The magnetic separator can also be designed in a ring shape (see Fig. q.).

Claims (1)

PATGNTANSPRUCII: Magnetic separator for removing magnetically attractable Components from liquid flows, in which several magnet systems are like rakes are immersed in the liquid flow one after the other, characterized by the gradual increase in the strength of the fields generated by the magnetic systems in the Direction of flow of the liquid.