SU1514997A1 - Labyrinth plastic/metal package - Google Patents

Abstract

The invention relates to a sealing technique, in particular to non-contact seals of shafts and rods. The purpose of the invention is to increase the reliability of operation by eliminating the possibility of a breakthrough of the sealing medium at the interface of the sealing parts. The seal contains a metal holder, in the annular groove of which a plastic intermediate sleeve is installed and the sealing sleeve covered by it with labyrinth scallops. The intermediate sleeve is installed with gaps relative to the side walls of the groove, is spring-loaded from the side of the high pressure zone, while the mating surfaces of this sleeve and casing are tapered, tapering towards the low pressure zone with an angle of inclination of the cone to the longitudinal friction axis. When the temperature of the compacted medium changes and the corresponding changes due to temperature deformations of the bushing diameter, the intermediate bushing moves axially under the action of the springs and the pressure of the compacted medium or due to the interaction with the conical surface of the groove of the cage, choosing gaps in the mating parts of the seal parts. 1 hp f-ly, 2 ill.

Description

The invention relates to a sealing technique, in particular to non-contact seals of shafts and rods.

The purpose of the invention is to increase the reliability of operation at variable temperatures by eliminating the possibility of a breakthrough of the sealing medium at the points of contact between the sealing parts.

FIG. Figure 1 shows the seal in the working position when exposed to a low-temperature sealing sleeve; in fig. 2 - the same, in the initial position at normal temperature.

The seal contains a metal yoke 1, in the annular groove 2 a plastic intermediate sleeve 3 is installed with a cat with axial gaps A and B relative to the side walls of the annular groove and the sealing sleeve 4 with labyrinth ridges covering it, separating zone B, G high and low pressure. The mating surfaces of the intermediate sleeve and the sleeves are tapered tapering in; the side of the low pressure zone G with the angle of inclination of the cone to the longitudinal axis greater than the friction angle.

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The spacer bushing is spring-loaded from the high-pressure zone B side by springs 5. The yoke is equipped with supporting shoulders 6 and 7, and samples that connect the cavities formed by the gap A and B with sealing zones are made on the end sections of the sealing sleeve that are simulated with these shoulders. C, D, high and low level.

Seal works as follows.

B - initial position at normal temperature, the sealing sleeve 4 is located with a certain gap on the shoulders b and 7, while the intermediate sleeve 3 is shifted towards the high pressure zone B and the springs 5 are compressed. During operation of the sealed unit and lowering the temperature, the sealing sleeve 4 due to temperature distortion decreases in diameter and selects gaps (5, together with it decreases in diameter and intermediate sleeve 3, while the intermediate sleeve 3 under the action of spring 5 and high pressure in the gap A, it moves towards the low-pressure zone G, selecting all the gaps in the places of intersection of the sealing parts, and thereby preventing the possibility of a breakthrough of the densified medium at the points of these interfaces. gata and temperature rise to normal sealing and intermediate: sleeve bushings

4 and 3 are deformed with an increase in their diameter, the intermediate sleeve 3 due to its mating with the yoke 1 at an angle to the longitudinal axis, greater than the friction angle, is pressed in the axial direction towards the high pressure zone B to its original position; remain gapless.

Claims (2)

1. Pabirint plastic seals containing a metal holder, in the annular groove of which there is a separating zone of high and low pressure plastic sealing sleeve with labyrinth crests on the inner surface, which differs in that, in order to increase the reliability of operation at variable temperatures , the seal is fitted with an intermediate plastmass bushing installed with axial gaps relative to the side walls of the annular groove between the yoke and the sealing sleeve, while the mating surfaces of the yoke and the intermediate sleeve are ko 7. tapering towards the low pressure zone with an angle of inclination of the generatrix of the cone to the longitudinal axis greater than the friction angle, 2. The seal according to claim 1, wherein the l and h are made so that the intermediate sleeve is spring-loaded from the side of the high pressure zone. (rig.1 FIG. 2