SU1668789A1 - Combined shaft seal - Google Patents

Abstract

The invention can be used to seal rotating shafts. The purpose of the invention is to increase the reliability of the combined seal when rotating and stopping the shaft. Dynamic seal 5 is installed on shaft 1. A hundred-night seal placed in housing 6 is made in the form of a cuff 3 in contact with an intermediate element mounted on shaft 1. The element is made in the form of a stepped sleeve 2. Between case 6 and seal 5 is installed with axial movement of the sleeve 4, on which the cuff 3 is fixed. Between the sleeve 4 and the body 6, on one side, an annular cavity 7 is formed, which is connected to a source of increased fluid pressure. On the other hand, the sleeve 4 is spring-loaded spring 9 in the direction of the cavity 7. A smaller stage is located opposite to the spring. When the pressure in the cavity 7 is lowered, the sleeve 4 under the action of the spring 9 returns to its original position and the cuff 3 begins to work. 1 Il.

Description

The invention relates to mechanical engineering and can be used to seal rotating shafts,

The aim of the invention is to increase the reliability and service life of the seal during rotation of the shaft and during shutdown.

The drawing shows a seal, cut.

An intermediate element is installed on the shaft 1 to be sealed in the form of a stepped sleeve 2, with which the parking seal cuff 3 is fixed in the sleeve 4. A dynamic seal 5 (screw) is installed on the shaft 1. The sleeve 4 is mounted in the housing 6 of the mechanism (for example, a pump) with the possibility of movement and, on the one hand, has a cavity 7 formed with the housing and connected through drilling 8 to a source (cavity)! high fluid pressure, and on the other hand is spring-loaded by a spring 9.

Sealing works as follows.

When the mechanism, for example, the pump, only the dynamic seal 5 (screw) works, when the mechanism stops, the rubber sleeve 3 works. As soon as the mechanism (pump) starts to work, pressure increases in the pumping cavity and the fluid is transferred through the drilling 8 in the housing 6 into the cavity 7. The fluid pressure due to the difference in diameters on the sleeve 4 creates a force exceeding the force of the spring 9 and the frictional force of rest of the sleeve 4, so the sleeve 4 begins to move with. the cuff 3 and the antenna of the cuff 3 passes to a smaller diameter of the step directed towards the spring 9 of the intermediate step sleeve 2 and is brought out of touch.

Dynamic seal 5 (screw) starts to work. When the mechanism (pump) stops, the pressure in the cavity 7 decreases and, as soon as the force from the spring 9 exceeds the force created by the discharge pressure, the sleeve 4 under the action of the spring 9 returns to its original position, the cuff 3 begins to work.

The proposed combined seal can be used in rotary-type mechanisms, which have an increased pressure of the working fluid during operation, for example, oil, oil, feed, condensate pumps, etc.

Claims (1)

Claim Combined shaft seal containing a dynamic seal mounted on the shaft and a parking seal placed in the housing, made in the form of a sleeve in contact with an intermediate element mounted on the shaft, characterized in that, in order to increase the reliability of the seal during rotation and stop of the shaft , the intermediate element is made of a stepped sleeve, and between the body and the dynamic seal is installed with the possibility of axial movement of the sleeve on which the cuff of the parking seal is fixed, p and that between the aforementioned sleeve and the housing on the one hand an annular chamber connected to a source of high pressure fluid and, on the other hand the sleeve is spring loaded by a spring in the direction of said cavity, the lower speed stage hub disposed toward spring.