SU1663288A1 - Compound seal - Google Patents

Abstract

Invention m. used in seals of apparatus shafts, where high demands are placed on the reliability of the equipment and the sterility of the process. The purpose of the invention is to increase the reliability of the combined seal. The combined seal is mounted on the sleeve 3 of the shaft 4 and is made in the form of a permanent magnet 8 with pole attachments 9, 10 and magnetic fluid 13 in sealing gaps 11. A pair of mechanical seal friction is formed by a fixed ring 14 and pole attachments 9, 10. Glasses 6, 7 are installed coaxially, partially fit into each other and spring-loaded with respect to cover 1 and base 19 of housing 2. Both seals are placed in cups 6, 7. The combined seal is installed to form working gaps with the inner surface of the cups. The cavity formed by the outer surface of the glasses 6, 7 and the body 2 is connected with a source of cooling medium. In the rings 14, anti-friction inserts 15 are pressed in, which form sealing moving contacts 16 with counter-friction inserts 17, pressed into the attachments 9, 10. 1 Cpf-ly, 1 Il.

Description

The invention relates to a sealing technique and can be used to seal the shafts of apparatus operating under pressure drop conditions in the chemical, petrochemical, microbiological and other industries, where high demands are placed on the reliability of the equipment and the sterility of the technological process.

The purpose of the invention is to increase the reliability of compaction

The drawing shows the seal, cut.

The combined seal consists of a roof 1, a non-magnetic body 2, a sleeve 3 fixed on the shaft 4 with a screw 5. In the body 2 there are two telescopically mounted

associated with each of the glasses o and 7, installed coaxially and partly into each other, in which a magnetic system is placed, consisting of permanent magnets 8 and pole attachments 9 and 10 to create a gradient magnetic field along the same diameter of pole attachments 9 and 10 from the side of the working gaps 11 are formed annular grooves 12 filled with magnetic hidkosgyu 13 In glasses 6 and 7 there are installed friction blocks 14 with anti-friction inserts 15 pressed into them, forming sealing mobile contacts 16c with anti-friction counterparts inserts 17, pressed-in and pole attachments 9 and 10. The fixed rings of the tracks are fixed from turning by pins 18-

oh sooo

00

with

The cups 6 and 7 are spring-loaded respectively with respect to the lid 1 and the base 19 of the body 2 by the springs 20.

The magnetic system is fixed on the sleeve 3 with the help of an additional sleeve 21 and a nut 22.

The cavity 23, bounded by the outer surface of the glasses 6 and 7, and the internal surfaces of the cover 1 and the housing 2, forms an annular cooling chamber with inlets 24 and outlet 25 of the cooling liquid. The fixed and movable joints are sealed with elastic elements 26-30.

Seal works as follows.

The telescopically connected glasses 6 and 7 springs 20 together with the friction rings 14 installed in them are pressed against the magnetic system attached to the sleeve 3 rotating together with the shaft 4, thus forming the end surfaces of the antifriction inserts 15 and 17 sealing contacts 16. Main differential pressure is compensated at the sealing contact 16 formed from the side of the medium being sealed. Leaking through this contact, the sealing medium is held by a magnetic-liquid seal due to the formation in its path of a liquid tube in the working gaps 11 from the magnetic fluid under the action of a gradient magnetic field created by permanent magnets 8.

During the operation of the seal, mechanical forces act on the shaft 4, causing its axial vibrations and displacements, which the magnetic system attached to the sleeve 3 performs together with it.

These axial movements and vibrations are monitored by elastic forces from springs 20 supporting constant sealing contacts 16 through anti-friction

inserts 15 and 17 between the friction rings 14 and the pole attachments 9 and 10 of the magnetic System, as well as automatically compensating for the wear of the specified anti-friction inserts.

The design improves the reliability of the seal.

Claims (2)

1. A combined seal, comprising a housing with a lid, mounted on the shaft sleeve, a magnetic-fluid seal made in the form of a permanent magnet with pole attachments and magnetic fluid in sealing gaps, and mechanical seal, the friction pair of which is formed by a fixed ring and a pole attachment, characterized in that, in order to increase reliability of the seal, it is provided with two coaxially mounted cups, partly interconnected with each other, with bases, spring-loaded with respect to the body and the cover, and mechanical seals are placed in the glasses, while the magnetic-liquid sealing is installed with the formation of working gaps with the inner surface of the glasses. 2. Compaction according to claim 1, characterized in that it is provided with a source of cooling medium, and the cavity formed by the outer surface of the glasses and the body is associated with it. 29