SU368434A1 - ALL UNION ^? ** 1? G! - ^ iUTEHTIiS ^ TEI ^ ttHA SHBili-'iOimA - Google Patents

Description

The invention relates to mechanical engineering.

Magnetic seals of rotating shafts are known, in the casing of which a package of permanent ring magnets surrounded by pole pieces forming a ferromagnetic fluid groove with a sleeve mounted on the shaft is mounted.

A distinctive feature of the proposed shaft seal is that discs of a material with high magnetic permeability are mounted on the shaft, forming a labyrinth with an annular groove of pole pieces.

Such a compaction structure increases its sealing ability under the action of radial and axial vibrations and a pulsating pressure drop.

The drawing shows the described seal in the section.

A package of permanent ring magnets 2, covered by pole pieces 3, forming with sleeve 4, mounted on shaft 5, an annular groove 5 for ferromagnetic fluid is installed in the housing / seal. Disks 7 of high magnetic permeability material are mounted on the shaft, forming a labyrinth 5 for ferromagnetic fluid, which is a suspension of a ferromagnetic well in a viscous mineral oil.

To reduce the flux between the pole tips, non-magnetic sleeves are installed, which also accept the axial force from the pressure drop.

Sealing rings 10 w. 11 prevents fluid from escaping through the landing gaps. Pole tips 3 and discs 7 are made of steel with high magnetic permeability.

The drawing shows the dotted line the path of the main magnetic flux through the magnetic circuit. Part of the flow is dissipated through the pole tips 3, the ferromagnetic fluid and the shaft 5. The presence of magnetic forces

the attraction of ferromagnetic particles causes the sealing ability of the seal.

When the shaft 5 rotates, the ferromagnetic fluid adjacent to the discs 7, which has a significant specific gravity (2.5-3 g / s.is), is subjected to centrifugal forces. As a result, the static differential maintained by the seal increases. Under the action of a pulsating or alternating pressure differential, the viscous forces of the ferromagnetic fluid hardening in a magnetic field begin to manifest themselves. Labrint 8 significantly increases this effect.

With radial vibrations compacted

The shaft 5 drives 7 are moved across the groove 6, while the ferromagitic fluid is displaced by the discs and the shaft into diametrically opposite regions of the groove. The magnetic resistance to the flow through the bore does not change, so the magnetic induction in the bore is also unchanged.

With axial vibrations of the shaft, the disks move along the magnetic flux, and the ferrofluid is displaced from one maze into another, i.e. the magnetic resistance to flux F does not change either.

Thus, the pressure drop tolerated by the seal is independent of the radial or axial vibrations of the sealing shaft.

Subject invention

A magnetic seal of a rotating shaft, in the case of which a package of permanent ring magnets is enclosed by pole pieces forming with a sleeve mounted on the shaft, an annular groove for ferromagnetic fluid, in order to increase sealing ability under the action of radial and axial vibrations and pulsating pressure differential, disks with a material with high magnetic permeability are mounted on the shaft, forming a labyrinth with ring grooves of pole pieces.

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