CS276918B6 - Magnetic filter - Google Patents

Abstract

In particular, a magnetic filter is created of magnetically hard ferrite parts of p magnetically soft materials and its essence is that ferrite the parts (1) and / or the pole pieces (2,3) are provided with notches (6) on its circumference or they are wavy at their perimeter.

Description

The invention relates to a magnetic filter, consisting in particular of magnetically hard ferrite parts and of pole pieces of magnetically soft materials, intended for separating ferromagnetic particles from fluids, for example from oil fillings of internal combustion engines.

Prior art magnetic filter designs use either separate prisms or trains, usually of magnetically hard ferrites, or of these magnetically hard ferrites, together with pole pieces of magnetically soft materials, to introduce a functional magnetic flux into the separation. The separation space of ferroparticles is determined by the arrangement of the magnetic poles of prisms or rollers, or pole pieces, especially in those spaces where there is a sufficient product of the intensity of the magnetic field and the gradients of this intensity of the magnetic field. The separation ability of a given magnetic filter arrangement is relatively small and the use of ferrite materials is low.

The above-mentioned drawbacks are eliminated by a magnetic filter made in particular of magnetically hard ferrite parts and pole pieces of magnetically soft materials, according to the invention. Its essence is that the ferrite parts and / or pole pieces are provided with notches on their circumference or are corrugated on their circumference. The notches are preferably in the shape of a rectangle, triangle or semicircle.

The magnetic filter according to the invention increases the effective separation space compared to arrangements with smooth poles or pole pieces. The magnetic filter at the same volume is able to capture 30 to 50% more ferroparticles. Said filter has a longer efficiency of action, therefore it is not necessary to change it frequently. Another advantage is the much higher use of materials - ferrites and thus saves ferrite materials. At the same time, the demands on their maintenance are reduced, which is associated with better filtration. The use of these filters increases the service life of entire equipment, which is directly related to the quality of lubricants.

Fig. 1 is a cross-sectional side view of a complete magnetic filter according to the invention, Fig. 2 is a front view of examples of notches, and Fig. 3 is a side view of a corrugation of the pole piece of the pole piece.

One possible embodiment is such that the magnetic filter is made of circular ferrite parts 1 of magnetically hard ferrite-durox. The ferrite parts 1 are alternately separated from each other by the north pole pieces 2 and the south pole pieces 3, which are identical in shape and dimensions.

Another possible embodiment is such that the pole pieces 2 and 3 in the form of black sheet metal discs are corrugated so that the central part contacting the ferrite parts 1 is planar and the edges of the discs are corrugated.

The magnetic flux emerges from the north poles S and passes from the north pole pieces 2 to the south pole pieces 2 · In a given space there is a greater length of edges, that is the part where the magnetic flux emerges from poles with a minimum radius. Both types of magnetic filters according to the invention captured at the same volume a 40% larger amount of ferroparticles than the filters used hitherto.

The magnetic filter according to the invention finds application primarily in the automotive industry.

Claims (2)

PATENT CLAIMS 1. Magnetic filter consisting in particular of magnetically hard ferrite parts and pole pieces made of magnetically soft materials, characterized in that the ferrite parts (1) and / or pole pieces (2,3) are provided with notches (6) on their circumference or are on their perimeter wavy. Magnetic filter according to Claim 1, characterized in that the notches (6) are in the shape of a rectangle, triangle or semicircle.