SU1086265A1 - Labyrinth seal - Google Patents

Abstract

1. LABYRINTH SEAL, containing a fixed disk with grooves on the end surface and a rotating disk mounted on the shaft with protrusions entering into the grooves of not one mobile disk, characterized in that, plates, and in a fixed disk there are tangential channels connecting the grooves to the drainage. 2. A seal according to claim 1, characterized in that the plate is made of two parts, the outer part having a graphite coating, and the inside is made of metal. S (L 00 OG) oo about sd

Description

The invention relates to general engineering machinery sealing technology and can be used as a contactless sealing of rotating shafts of machinery and equipment.

Labyrinth seals containing two disks are known, on whose mating end surfaces labyrinth chambers with corresponding projections and depressions 1 are made.

However, this seal is characterized by insufficient tightness due to leakage of the sealing or lubricating fluid through the gap of the maze.

The purpose of the invention is to reduce leakage of lubricating fluid.

The goal is achieved by the fact that in a labyrinth seal containing a stationary disk with grooves on the end surface and a rotating disk with protrusions entering the grooves of the stationary disk, radial grooves in which the plates are located are in the protrusions, and connecting grooves with drainage.

In this case, the plate is made of two parts, with the outer part having a graphite coating, and the inside is made of metal.

Such a labyrinth seal design works like a plate pump, draining fluid flowing into the labyrinth chambers to drainage channels. To improve the drainage of this fluid, drainage channels can be connected to a vacuum system made, for example, by means of an ejector operating at an overpressure of a lubricating fluid.

FIG. 1 shows the seal, a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - connection of the ejector to the seal.

The seal contains a shaft to be sealed to K, a seal housing 2 rotating 3 and a fixed 4 discs. In the protrusions of the rotating disk 3 there are several radial grooves 5 in which the plates 6 are located, the outer part has a graphite coating, and the inner part is made of metal. From the depressions of the fixed disk 4 drilled tangential drainage

channels 7 (Fig. 2), which connect the depressions with the chamber of the ejector 8 (Fig. 3). The chamber of the ejector 8 summed up the pipe 9 with the nozzle 10 and the pipe 11 connected

with bearing assembly. The pipe 9 is connected to the injection system for supplying lubricant to the bearing assembly.

Labyrinth seal works as follows.

When the disk 3 rotates, the protrusions of which enter the corresponding cavities of the fixed disk 4, a hydraulic resistance is created preventing the flow of lubricant from the cavity between the stationary disk 4 and the shaft 1. Under the action of the centrifugal force of the plate 6 the radial grooves 5 of the rotating disk 3 and pressed against the cylindrical surface of the valleys of the fixed disk 4. The presence of several radially arranged plates helps to displace

fluids from the labyrinth cavity into the tangential channels 7. Under the action of the excess pressure of the fluid flow and the vacuum that occurs in the chamber of the ejector 8, the liquid from the tangential channels 7 flows into the chamber of the ejector 8 (Fig. 3). In the chamber of the ejector 8, fluid flowing out under the action of overpressure (fluid is supplied through a conduit 9 connected to the circulating lubrication injection system) from the nozzle 10 ejects fluid from the chamber of the ejector 8 and the total mass of the fluid is fed through a conduit I to the bearing assembly.

Thus, the use of the extrusion effect when the disk with radial grooves is rotated and the plates inserted into them allows to reduce leakage of lubricating fluid. The ejector installation on the drainage line also contributes to the reduction of lubricant leakage.

Plates can be made of graphite-coated metal for diminishing and friction.

The technical and economic efficiency of the invention is to increase the sealing tightness by reducing leakage of lubricating fluid through the seal.

Claims (2)

1. LABYRINTH SEAL, comprising a stationary disk with grooves on the end surface and a rotating disk mounted on the shaft with protrusions included in the grooves of the stationary disk, characterized in that, in order to increase the tightness, radial grooves are made in the protrusions in which the plates are located, and in the fixed disk there are tangential channels connecting the grooves with the drainage. 2. Seal by π. 1, characterized in that the plate is made of two parts, the outer part having a graphite coating and the inner one made of metal. (L y / g 1 o □ o o o o o Joint venture