SU1379551A1 - End-face seal - Google Patents

Abstract

The invention relates to a sealing technique and can be used in pumps, compressors, turbines and other devices for sealing rotating shafts. The purpose of the invention is to increase the reliability of the sealing operation by regulating the coolant supply to the friction zone. In the mechanical seal operating under the conditions of a variable amount of fluid in the sealing chamber, the channels 10 in the rotating ring 6 are rubbed with variable angular displacement relative to the inclined grooves 11 of the disk 12. Due to the slopes inclined in the direction of rotation, 11 on the disk 12 when interacting with the liquid the torque that expands the disk 12 begins to increase, successively blocking the inlet openings of the channels 10 of the rotating ring 6, closing them when the sealing chamber is filled, which corresponds to the mode Maximum Feed pump performance. 2 Il. with (L

Description

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The invention relates to seals of rotating shafts, can be used in pumps, compressors, turbines and other devices and is an improvement of the invention according to the author. No. 1296774.

The purpose of the invention is to increase the reliability of the seal operation when working with a varying amount of fluid in the seal chamber by adjusting its supply to the friction zone.

Fig „1 shows compaction, section; in fig. 2 is a view A of FIG. one.

The face seal consists of body 1, moving in the axial direction of ring 2 friction, installed in case 1 through secondary seal 3, pressed by wavy spring A and fixed from turning by pin 5 "Rotating ring 6 friction is mounted on shaft 7 through secondary seal 8, not in an annular groove 9 is made, and it is provided with channels 10 arranged with variable angular displacement relative to grooves 11, made at an angle to the generator of the disk 12 in the direction of rotation. The rotating friction ring 6 is clamped by pump construction elements rigidly connected to the shaft 7 (not shown). The disk 12 is elastically connected through the spring 13 with the rotating ring 6, the turning of the disk 12 on the rotating ring 6 is limited by the groove 14 and the pin 15, and the axial movement by the split locking ring 16.

The device works as follows.

At idle modes of the pump, lubrication and cooling of the mechanical seal is performed by liquid supplied in a small amount to the sealing chamber, and due to the pumping effect created by the grooves 11 of the disc.

ten

15

20

25

thirty

five

0

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12 partially pumped through the channels 10 and the annular groove of the rotating ring 6. At this time, the disk 12 is small and the spring 13 holds the disk 12 in such a way that the grooves 11 are opposite the inlets of the channels 10 of the rotating ring 6 o

At the same time, due to the ejection effect created by the pump chamber, the liquid is withdrawn from the sealing chamber. When the pump goes to the operating modes, the sealing chamber begins to fill with the liquid coming from the pump chamber, and the greater its quantity, the closer the pump operation mode to the maximum. Due to the interaction of slots 11 inclined in the direction of rotation with the liquid on the disk 12, the torque begins to increase, which unfolds it, successively blocking the inlets of the channels 10 of the rotating ring 6, completely closing them when the sealing chamber is filled, which corresponds to the maximum pump performance . Cooling and lubrication in this case is carried out by the fluid washing the seal. The angle of inclination of the grooves 11 and the spring stiffness 13 depend on the design features of the pump and its modes of operation and can finally be determined by fine-tuning the seal.

Claims (1)

Invention Formula Mechanical seal on the autor. No. 129677A, characterized in that, in order to improve the performance of the seal, the channels in the rotating ring are fitted with a variable angular displacement relative to the disk slots. bida eleven one FIG. g