SU1425403A1 - Rotating shaft seal - Google Patents

Abstract

The invention relates to a sealing technique, in particular to shaft seals with floating rings. The purpose of the invention is to increase reliability by improving cooling; The seal consists of a body in which the outer and finned inner floating rings are installed. In the housing there is a locking fluid supply chamber, which communicates with the cavity between the rings through the pro-longitudinal grooves formed by the longitudinal edges of the inner ring. The interface of the ring with the ribs may be curved. The outer ends of the ribs form a sealing gap with the housing. The fins of the inner ring increases the area of its contact with the blocking fluid, making the ribs longitudinal eliminates the formation of stagnant zones, and also leads to uneven temperature deformation of the ring, which increases the centering capacity of the ring, 1 hp f-ly, 3 ill. $ (L with

Description

4U

to

ate

four

The invention relates to sealing technology, in particular, to shaft seals by floating rings.

The purpose of the invention is to increase the reliability of operation by improving cooling,

Fig „1 shows udoshotnie; in fig. 2 is a section A-A in FIG. 1J in FIG. 3; a seal with a curved surface mating ring j with ribs.

The seal consists of a housing 1, in which the outer 2 and I inner 3 floating rings are located, mounted on the shaft 4 with a gap and sealing the working cavity of the unit from the atmosphere. To supply the locking fluid to the seal assembly, chamber 5 is in communication with the cavity i, between the rings 2 and 3 through the longitudinal grooves 6 formed by the ribs 7,; filled on the inner ring 3, and through the gap 8 between the outer surface of the inner rings 3 and housing 1. Rings 2 and 3 are secured against rotation in the circumferential direction by pins 8. Preliminary contact of rings 2 and 3 with housing 1 is secured by springs 9.

Seal works as follows.

The locking fluid under pressure exceeding the pressure in the working strip of the TI unit, is fed into the chamber 5 "From

chambers 5 through the grooves 6 formed by ribs 7 and the gap between the outer surface of the inner ring 3 | and the body 1 enters the cavity between the rings 2 and 3 j creating a hydraulic valve and preventing leakage of the sealed medium into the atmosphere. The fins of the inner ring 3 significantly increases the length of its contact with the locking fluid, and the provision of the ribs 7 with longitudinal ribs prevents the formation of stagnant zones.

Such a supply of locking fluid to the cavity between the prefabrication rings helps to improve the cooling of the inner ring, which ensures its operation with normal speed.

5 0 5 0

five

About 5

0

Peru mode at high peripheral speeds and high operating pressures, thereby increasing its reliability.

In addition, the execution of longitudinal ribs leads to uneven temperature deformation of the inner ring, which causes the formation of microscopic irregularities on the sealing surface of the ring, in turn, contributes to the formation of microhydro wedges, which significantly increases the centering ability of the internal floating ring.

one.

The invention allows the inner rings to be made with the minimum possible clearance, which significantly reduces leakage of the barrier fluid into the working cavity of the unit, or to install outer floating rings with a smaller clearance, since the clearance under the outer ring is determined by the amount of pumped oil required to cool the inner ring, what provides the maximum possible life of the seal assembly.

Claims (1)

1. The seal of the rotating shaft, comprising a housing filled with locking fluid and serving as a hydrating valve, a locking fluid supply chamber, an inner and an outer ring mounted with a clearance relative to the shaft, the outer surface of the inner ring being made ribbed, characterized by To increase the reliability of operation due to improved cooling, the ribs of the inner ring are longitudinal, with a sealing gap formed between the outer ends of the ribs and the housing. 2, the seal according to claim 1, which is such that, in order to increase the rigidity of the inner ring, the interface of the inner ring with the ribs is made curved, for example, along a radius. -AND Aa FIG. 2