SU1737201A1 - Magnetic-liquid seal - Google Patents

Abstract

Use: for sealing movable cylindrical elements. SUMMARY OF THE INVENTION: An annular magnet 4 with pole pieces 5, 6, enclosing a magnetically perceptible movable cylindrical 11 n-sealed element, is mounted in case 1. The working gaps are filled with magnetic fluid 16. Ring magnets 12, 13 are installed between the end surfaces of tips 5, 6 and magnetically permeable side covers

Description

The invention relates to a sealing technique and can be used to seal movable cylindrical elements.

The purpose of the invention is to increase the reliability of compaction by compensating for errors in the manufacture and installation of the magnetic system and increasing the magnetic energy.

FIG. 1 shows a magnetic-fluid seal, a longitudinal section; in fig. 2 is a section A-A in FIG. one.

The magnetically liquid seal consists of a magnetically permeable body 1, which on both sides contains magnetically permeable covers 2 and 3. Inside the body

1, an annular magnet 4 is installed with pole pieces 5 and 6, which enclose a magnetically permeable sealing element, for example a shaft. The outer surface of the pole tips 5 and 6 is made in the form of an even polyhedron, on the face of which additional flat magnets 7, 8, and 9 are mounted, pressed by segment inserts 10 and 11. Axially to the pole tips 5

and 6, additional ring magnets 12–13 are installed, pressed by covers 2 and 3. At the same time, the latter are fixed by means of elastic elements 14 and 15, wedge liners 10 and 11. Gaps between pole tips 5 and b, covers

2 and 3, the shaft 7 is filled with a magnetic fluid 16. The inserts 10 and 11 are made with conical outer surfaces that come into contact with the conical sections of the bodies.

Magneto-liquid seal works as follows.

The magnetic flux from the annular magnet 4, the additional flat magnets 8, 9, and the additional annular magnets 13 and 12 are concentrated on the pole pieces 5 and 6 and closed through the magnetic fluid 16 and the magnetically permeable shaft 7. At the same time, the end surfaces of the magnets 12 and 13 that do not interact with pole tips 5, 6. interact with covers 2, 3 and through liners 10, 11 with housing 1, which are also made of magnetically permeable material. This makes it possible to sum up the energy of the magnets used and form two additional magnetic circuits, which are closed through pole pieces 5, 6, covers 2, 3 and shaft 7

Thus, in the magnetic-liquid sealing there are no unproductive losses of magnetic energy, which is maximally used to hold the magnetic fluid 16 in the working shafts between the pole pieces 5, 6, the caps 2, 3 and the element 7.

Performing the outer surface of the pole pieces 6, 5 in the form of an even polyhedron allows placing flat magnets 8 and 9, which face the faces, on the faces, with the same magnetic pole, which the ring magnet 4 faces to them. Placement between flat magnets 8, 9 The housing 1 of the liners 10, 11 allows the flat magnets 8, 9 to be pressed against the pole tips 6.5 and also centering the latter with respect to the sealing element 7. The pressing of the liners 10 and 11 by means of elastic elements 14, 15 and covers 2, 3 provides fixation liners from moving.

Claims (1)

The invention includes a magneto-fluidic seal comprising annular magnets with pole pieces installed in a housing, covering a magnetically permeable movable cylindrical sealable element, magnetically permeable side covers and magnetic fluid in working gaps, in order to increase the reliability of the seal, it is equipped with additional ring magnets installed between the end surfaces of the pole tips and caps, flat magnets and segment liners with tapered their outer surfaces in contact with the inner parts of the body, made conical, and tucked in elastic elements installed between the end surfaces of the liners and the lids, the outer surfaces of the pole tips are made in the form of a polyhedron, on which are mounted flat magnets in contact with the liners, all the magnets are directed towards each other by like poles, and the casing is made of a magnetically permeable material. L-A sixteen Shig.2