DE966341C - Permanent magnet system for holding ferromagnetic bodies or for sticking to them - Google Patents

Description

Permanent magnet system for holding ferromagnetic bodies or for adhering to such. The invention relates to permanent magnet systems which are intended to be adhered to of ferromagnetic bodies or to adhere to them. There are such Magnet systems are known in which a cylindrical Permanent magnet is arranged, which is magnetized in the axial direction and with the Inner wall of the pot forms an air gap. These known systems possess especially with larger dimensions the disadvantage that the working air gap along the inner wall of the pot has a relatively large area in the middle of the system not detected, so that there is less adhesion here; this makes it special noticeable in systems that are supposed to act on several smaller objects or which should adhere to irregularly shaped surfaces. There are also oil filters known with a permanent magnet system for the separation of ferromagnetic parts, in which there is a ring magnet magnetized in the axial direction, the one without Eisenrücksch.luß is arranged in a non-magnetic housing. With these will no pronounced concentration of the magnetic lines of force in an air gap causes so that the adhesion and fialtekraft is low.

Another known type of iron catcher for bulk goods consists of three straight iron poles arranged parallel to each other, of which the two outer ones with one pole, the inner one with the other pole behind it arranged bow-shaped magnet systems are connected. Your installation must be in a specific location, namely so that its elongated Air gap perpendicular to the direction of flow of the bulk material. This requires a large amount of space and an uneconomical construction caused, which are avoided in the invention.

The invention describes a magnet system with a much larger Expansion of the working air gap. It is characterized in that an annular cylindrical permanent magnet magnetized in the axial direction inside a Soft iron pot is arranged and encloses a cylindrical iron core, so that on the one hand it has a working air gap with the outer soft iron jacket, on the other hand forms with the inner iron core. Such a magnet system enables the application a larger amount of magnetic material and has both an outer, extended Working air gap as well as an inner one in the middle of the face.

An example of the invention is shown in Fig. I, where i is the outer Iron pot means that at the same time any magnetic scattering in other than the forehead direction prevents 2 the permanent magnet magnetized in the direction of its axis and 3 the inner iron core. The course of the magnetic field lines between the North Pole of the magnet and the outer or inner iron yoke is indicated by dashed lines.

In a modification of the inventive concept, the end face of the permanent magnetic Ring 2 with a glued-on, sintered-on or in any other suitable manner attached protective ring made of soft iron. The air gap can also be used between the iron parts and the magnetic ring with a non-magnetic material, z. B. pressed material or brass, so d: ate only those from the end face escaping parts of the magnetic flux come into effect. Such holding magnet systems are "because of their large expansion of the working air gap for the elimination of ferromagnetic parts made of liquids or granular or fibrous solid material particularly suitable. This can be achieved by different lengths of the two air gaps (understood in the field direction) a great depth effect can be achieved by about the outer air gap with a larger cross-section also has a greater length and thus has a wider spread than the inner air gap.

A magnetic filter for separating ferromagnetic bodies from liquids with a magnet system according to the invention is shown in Fig. 2 .I such a magnet system in which the core is provided with a bore 5; it is arranged in a pot-like housing 6 made of any material, the one easily removable lock 7 has. Through a gap 5 between the magnet system and the liquid entering at 9 initially flows concentrically over the housing the outer air gap io, then over the inner air gap i i and through the central hole 5 to the outlet 12. The cleaning can be done after removing the lock 7, which is expediently made of transparent material to show the degree of soiling to reveal.

Claims (7)

PATENT CLAIMS: i. Permanent magnet system for holding ferromagnetic Bodies or to stick to those with an inside of a @ Veichei'sentopfes arranged permanent magnets magnetized in the axial direction, characterized in that that the permanent magnet is annular and has a cylindrical soft iron core encloses. 2. permanent magnet system according to claim i, characterized in that the two ring-shaped air gaps between the soft iron pot and your permanent magnet ring on the one hand and between the Dsüermagnetring and the soft iron core on the other hand are filled with a non-magnetic material. 3. Permanent magnet system according to the Claims i and 2, characterized in that the annular permanent magnet with a glued on .. sintered or otherwise attached protective ring made of soft iron. 4. permanent magnet system according to claims i to 3, characterized through its use to separate ferromagnetic parts from liquids or granular or fibrous material. 5. permanent magnet system according to claim .I, characterized characterized in that the soft iron core enclosed by the annular permanent magnet is provided with a bore (5). 6. Permanent magnet system according to claims 4 and 5, characterized in that it is in a pot-like housing (6) from any `@ 'Erkstoff with an easily removable lock (7) is arranged in such a way that the Liquid flowing in through the pipe (9) through a gap (8) between the permanent magic system and the housing (6) through first over the outer annular air gap (io), then flows over the inner annular air gap (i i) and through the 2 # central bore (5) and the tube (12) leaves the housing. 7. permanent magnet system according to claim 6, characterized characterized in that the closure (7) is made of transparent material. Documents considered: German Patent No. 697 826; German Patent application p 8656 XI / 87a; British Patent No. 639 039; Prospectus sheet »DEW Oerstit permanent magnets«; Spreadbury "Permanent Magnets", London 1949 pp. 140 bis 143.