SU1710901A1 - Non-contact spherical seal - Google Patents

Abstract

The invention relates to a sealing technique, in particular non-contact seals, and can be used for sealing moving elements. The aim of the invention is to increase reliability by providing a constant gap between the sealing surfaces. The seal contains a rotating nozzle 1 with a visor, having a sphere on the contact surface mounted on the shaft 2 and fixed with a nut 3, and movable in axial and angular directions, but not rotating the sleeve 4 with a concave spherical surface having the same radius of the sphere as the spherical surface of the nozzle 1. The tightness and mobility of the sleeve 4 is provided by the bellows 5, and the fixation of its rotation is secured by the locks 6 installed in the housing 7. In the absence of 1 b

Description

rotation of the surface of the mechanical seal is compressed by elastic elements 8. The nozzle 1 has a groove 9 on the spherical surface and the blades 10 are mounted on the inner surface. A thin-walled element 11 mounted relative to the inner surface of the visor of the nozzle 1 with a clearance 12 is fixed on the body 7. channels 13, and on the annular groove 9 along the perimeter of the larger and smaller diameters, notches are made. When the shaft 2 rotates, the gas enters the inlet of the blade 10. Part of the gas through the blades 10 flows through the channels 13 into the groove 9, creating in this cavity the pressure necessary to release the sleeves 4. The notches provide additional force to release the sleeves 4, as well as stabilizing the gap the entire surface of the seal. 2 з.п, ф-л, 3 Il.

The invention relates to a sealing technique, in particular non-contact seals, and can be used for sealing moving elements.

The aim of the invention is to increase reliability by ensuring a constant gap between the sealing surfaces.

Figure 1 shows the proposed seal; FIG. 2 is a view A of FIG. one; on fig.Z - section bb in fig, 1.

The non-contact spherical seal contains a rotating nozzle 1 with a visor, having a sphere on the contact surface mounted on the shaft 2 and secured with a nut 3, and movable in the axial and angular directions, but not rotating the sleeve 4 with a concave spherical surface having the same radius spheres as the spherical surface of the nozzle 1.

The tightness and mobility of the sleeve 4 is provided by the bellows 5, and its fixation from angular rotation is secured by clamps 6 mounted and fixed in the housing 7.

In the absence of rotation, the working spherical surfaces of the mechanical seal are in tight contact, eliminating leakage under the influence of elastic elements 8.

The nozzle 1 on its spherical working surface has an annular groove 9 about the axis of rotation, which divides the working spherical surface of the nozzle into two surfaces.

Centrifugal vanes 10 are mounted on the inner surface of the nozzle 1. A thin-walled annular element 11 is mounted on the housing 7, mounted relative to the inner surface of the visor of the nozzle 1 with a clearance of 12. In the nozzle 1, through channels 13 are made that connect the inner surface with the surface facing the sleeve. 4. Notches 14, 15 are made on the annular protrusion 9 along the perimeter of larger and smaller diameters.

The operation of the non-contact spherical mechanical seal is carried out as follows.

When the shaft 2 rotates, high-pressure gas (liquid) enters the inlet 10. Part of the gas (liquid) through the blades 10 flows through the channels 13 into the annular groove 9, creating in this cavity the pressure necessary to release the sleeve 4. Centrifugal blades 10 when rotating, the nozzles 1 also supply gas (liquid) to the gap 12, which creates an ejection effect in the gap between the sleeve 4 and the rotating nozzle 1.

The notches 14 and 15, which are angled along the entire perimeter of the annular groove 9, provide an additional effort to compress the sleeve 4, as well as to stabilize the gap over the entire spherical surface of the seal.

Claims (3)

1. A non-contact spherical seal comprising a housing, a shaft, a friction sealing pair consisting of a rotating ring fixed on the shaft, and a spring-loaded fixed ring in the form of a sleeve sealed with a bellows, characterized in that, in order to increase reliability, the contact surface the sealing pair is made spherical, and the rotating ring is made in the form of a nozzle with a visor, with centrifugal vanes mounted on the inner surface of the nozzle, and a thin-walled annular element is mounted on the body t, mounted: relative to the inner surface of the cap with a gap nozzle, with a nozzle formed through channels connecting the inside surface to the surface facing the sleeve. 2, Seal according to claim 1, about t-l and h aa ee-- so that the annular groove is made on the surface of the nozzle facing the sleeve. 3. The seal according to claim 2, characterized by the fact that on the surface of the annular groove along the perimeter of the larger and smaller diameters are made notches. Type A Rig. 2 bv