SU1078167A1 - Combined magnetic liquid seal - Google Patents

Abstract

COMBINED MAGNETIC LIQUID SEAL, consisting of two seals in series installed in the housing, one of which is a magnetic liquid, containing a permanent magnet, pole attachments with ring grooves and magnetic fluid in sealing gaps, characterized in that, in order to increase reliability by raising retentate, it is necessary to increase the reloading capacity. pressure, the second seal is made face, one of the rings of which is installed in the housing and is made of magnetic conductive material, and the role of the second ring is performed by you stupid, located at the end of the pole-top boxes magnitozhidkostnym seal.

Description

The invention relates to a sealing technique and can be used to seal rotating shafts.

Known mechanical seal of the pump shaft, under pressure [1].

The disadvantage of mechanical sealing jav. There is a constant leakage of a small amount of sealing medium, which is unacceptable in a toxic environment.

Known magneto-liquid seal 1 containing a permanent magnet with pole I I Mi attachments. th magnetic fluid in: * sealing gaps [2].

) The disadvantage of this seal is that the pressure drop is small.

A combined seal is known, consisting of stuffing box and magneto-fluid seals, in which the magneto-fluid seal has a fixed housing, a permanent magnet with pole attachments and ring channels on them [3]

The disadvantages of the known seals are the need for constant maintenance of the gland and the small value of the total held differential pressure.

The purpose of the invention is to increase reliability by increasing the held differential pressure.

This goal is achieved by the fact that in the combined magneto-liquid seal, consisting of two seals installed in series in the housing, one of which is magneto-liquid, containing a permanent magnet, pole attachments with annular grooves and magnetic fluid in the sealed clearance. the rings of which are installed in the housing and are made of magnetic material, and the role of the second ring is played by a protrusion located at the end of the pole attachment of the magneto-liquid seals.

The drawing shows the proposed seal.

In the housing 1, a stationary ring 2 of magnetic conductive material is installed, having an annular protrusion 3 and connected to the housing by springs 4 and a retainer 5.

On the sleeve 6, mounted on the shaft 7 and rotating in place with it, a pole attachment 8 is fixed, having an annular protrusion 9 at the end and teeth on the outer diameter, a permanent magnet 10, a pole attachment 11 with teeth on both the outer and inner diameters .

The sleeve 6, together with a magnet 10 and pole attachments 8 and 11 mounted on it, is pressed against the shoulder of the shaft 7 with bolts 12. The magnet 10 and pole extensions 8 and 11 have a diametrical clearance with the seal housing, forming a cavity 13 for magnetic fluid.

The pole attachment 11, having an internal diameter gap with the shaft 7, also forms an auxiliary cavity 14 under the magnetic fluid.

The seal housing 1 with a bolt 15 and a nut 16 through the gasket 17 is attached to the sealing object 18.

The peripheral part of the ring 2 is sealed relative to the housing 1, for example, by a bellows 19. The seal of the sleeve can be performed using other sealing elements.

Sealing works as follows.

To the end face of the annular projection 9 of the pole-top box 8 which rotates together with the shaft, is urged by springs 4 end of the annular flange 3 fixed ring 2 forming during rotation friction pair, uder ²⁵ ALIVE main pressure drop, and by means of the permanent magnet 10, attachments 8 and 11, and cavity 13, filled with magnetic fluid, retained in the cavity by magnetic force, a seal is formed over the housing, holding the rest of the pressure drop. At the same time, part of the magnetic flux passes through the joint of the friction pair formed by the protrusions 3 and 9, and closes on the housing 1, which allows to increase the differential pressure 3 ₅ held by the friction pair due to the additional holding magnetic force, and reduce the friction moment in the friction pair, which allows reduce drive power loss. At the same time, the magnet 10, the pole attachment 11 and the magnetic fluid in the cavity 14, ⁴⁰ which is held under the action of the magnetic flux of the dispersion created by the magnet 10, form an additional seal on the non-magnetic shaft.

Thus, the invention makes it possible to provide a large amount of retained differential pressure.

Feasibility of the invention is to increase the reliability of the seal and reduce drive power.

Claims (1)

COMBINED MAGNET-LIQUID SEAL, consisting of two sequentially installed seals in the housing, one of which is magneto-liquid, containing a permanent magnet, pole attachments with annular grooves and magnetic fluid in the sealing gaps, characterized in that, in order to increase reliability by increasing the pressure drop, the second the seal is made face, one of the rings of which is installed in the housing and is made of magnetic material, and the protrusion acts as the second ring, located at the end of the pole attachments of the magneto-liquid seal.