SU1732095A1 - Magnetoliquid seal - Google Patents

Abstract

Use: in all sectors of the national economy for sealing rotary shafts when transmitting motion to gaseous or liquid media. SUMMARY OF THE INVENTION: Two magnetic assemblies in the form of permanent magnets T and 2 with pole tips 3, 4 and 5, 6 are placed in the housing 9. The magnetic circuit in the form of an annular spacer 7 is fixed on the shaft 8. A spacer 7 is installed between the nodes to form between it and housing 9 sealed gaps filled with magnetic fluid 11. Case 9 is made of magnetic material. 1 il.

Description

The invention relates to a sealing technique and can be used in all sectors of the national economy for sealing rotating shafts when transmitting motion to gaseous or liquid media.

The aim of the invention is to improve the reliability of the seal.

The drawing shows the described seal.

The seal includes two magnetic assemblies in the form of permanent magnets 1 and 2 with pole tips 3, 4 and 5, 6, a magnetic circuit in the form of an annular spacer 7 fixed on the shaft 8 and installed between the magnetic assemblies, and the housing 9 conjugated in diameter with an external pole tip of each magnetic assembly, bearing assemblies 10 between each magnetic assembly and an annular spacer 7, as well as magnetic fluid 11 in sealed gaps: 5i, 62, 5з, 64.

To create an uneven magnetic field in sealing gaps 5i, 62, 5z. Yes, annular grooves are made on the outer surface of the pole pieces 3 and 5, as well as on the end surfaces of the pole pieces 4 and 6. To reduce friction losses between the magnet assemblies, a spacer 12 is installed.

The shaft 8 can be made of both ferromagnetic and non-ferromagnetic material.

Permanent magnets 1 and 2 with pole tips 3, 4 and 5, 6 magnetic core in the form of an annular spacer 7 and housing 9, as well as working gaps 3i, 62, 5з, 5 / q, filled with magnetic fluid 11, form a closed magnetic circuit - flow F.

With the passage of the magnetic flux F through the working gaps, radial forces arise, under the action of which the magnetic assemblies through the outer pole lugs 3 and 5 attract and stick in the housing 9.

The magnetic flux F also develops axial forces, under the action of which the magnetic assemblies are pressed through the bearing assemblies 10 to the annular spacer 7. The magnetic force resulting from the interaction of the magnetic fluid 11 with the field of the permanent magnets 1 and 2 prevents the magnetic fluid from flowing out under

the action of pressure drop from gaps 5i, 62, 5h, $ 4. The magnitude of this force depends on the magnetic characteristics of the VF, the induction in the gaps (5h - $ 4 and is proportional to the magnetic field gradient.

Reliability of sealing is achieved due to the fact that the annular spacer 7, mounted on the shaft 8, is installed between two magnetic assemblies, coupled with external pole tips 3 and 5

with the housing 9 and allowing the shaft 8 to make axial movements.

Claims (1)

Magnetic-Fluid Seal, comprising a housing, a magnetic unit in the form of a permanent magnet with pole pieces, a magnetic circuit in the form of an annular spacer mounted on the shaft, and a magnetic fluid in sealed gaps, which In order to increase the reliability of compaction, it is equipped with an additional magnetic assembly, the magnetic assemblies are made movable relative to the housing, and are installed on both sides of the annular spacer to form sealing gaps with it and the housing, while the housing is made of magnetic material.