RU1809174C - Radial seal impeller - Google Patents

Abstract

Scope: mechanical engineering, can be used to seal the rotating shaft of pumps, compressors, turbines, etc. rotary machines. The inventive radial seal impeller contains a solid disk 2 mounted on the shaft 1, from the end 3 of which an annular groove 4 is made, which is provided with an axial clearance relative to the solid disk 2, a disk 5 that is permeable to the working medium and axially movable and forms solid disk 2 chamber, and the impeller is equipped with an additional permeable disk 7 mounted in the chamber with the possibility of rotation or axial movement. 1 ill.

Description

The invention relates to mechanical engineering and can be used to seal the rotating shaft of pumps, compressors, turbines, and the like. rotary machines.

The aim of the invention is to increase reliability and simplify the design of a radial seal impeller for rotary machines.

The drawing shows a structural diagram of a radial seal impeller,

The impeller comprises a solid disk 2 mounted on the shaft 1, from the end side 3 of which an annular groove 4 is made, in which a disk 5, which is permeable to the working medium, is placed with an axial clearance relative to the solid disk 2, and is axially movable and forms a chamber 6 with the solid disk 2 moreover, the impeller is equipped with an additional permeable disk 7 mounted in the chamber 6 with the possibility of rotation or axial movement. The main disk 5 is installed with a minimum axial clearance 8 relative to the wall of the housing 9. The permeability of the main 5 and additional 7 disks is ensured by making the latter, for example, perforated with through holes 10. The device for moving and fixing the additional disk 7 is made in the form of a screw mechanism 11 located on hub 1.2 of the solid disk 2.

The operation of the device is as follows. As the shaft 1 rotates, the sealing medium located between the impeller and the wall of the housing 9 is involved in the rotation. Under the action of centrifugal forces acting on the medium to be sealed, backpressure occurs that seals the shaft 1: The impeller engages the medium in rotation due to its penetration through the annular disk 5 into the chamber 6, in which it acquires the angular velocity of rotation of the solid disk 2 . At the periphery of the impeller, a swirling sealing medium under the action of centrifugal

forces are ejected through the holes (pores, channels) 10 of the permeable disk 5 from the chamber 6 into the axial clearance 8 between the impeller and the wall of the housing, where it mixes with the sealing medium and twists it, providing a back pressure sealing the shaft 1. Regulation of the degree of tightening of the seal medium in the axial clearance 8 is provided by changing the amount of medium circulating through the chamber 6 due to a change in the permeability of the disk 5, provided by the relative position (axial or angular) of the holes 10 of the main disk 5 and additional about disk 7 relative to each other with their subsequent mutual fixation.

The impeller design allows simultaneous filtration of the sealed medium from wear products, abrasive inclusions, and the like. particles. To this end, a collection of filtered particles should be provided along the axial vortex of the sealing medium, which can be located at the shaft of the rotor machine or at the periphery of the impeller disk.

This embodiment of the radial seal impeller makes it possible to increase the reliability of the shaft sealing, to simplify the design and the process of adjusting the characteristics for a given operating mode, and to increase the purity of the medium being sealed in the sealing cavity.

Formula, Inventions

An impeller of a radial seal, comprising a solid disk mounted on the shaft, at the end of which an annular groove is made, in which an axially permeable working medium disk is arranged with an axial clearance relative to the solid disk, and it is axially movable and forms a chamber with a solid disk. that, in order to increase reliability and simplify the design, the impeller is equipped with an additional permeable disk mounted in the chamber with the possibility of rotation or axial movement.

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