SU384052A1 - - Google Patents

Description

INSTALLATION FOR SAMPLING TEST

SEALS

one

This invention relates to: MACHINEM For testing the wear of seals, mainly multistage turbines and pumps.

Installations for testing sample seal seals are known, comprising a test chamber with a housing, a rotor mounted coaxially with it, sample holders, a loading mechanism for the test samples, pipelines for supplying the sample. M working medium and means for registering the parameters under study.

However, in the indicated installations, the sealing of the chamber along the shaft is not necessary to ensure operability.

In addition, it is not possible to provide appropriate means for supplying the working medium directly to the test specimens, which does not provide the conditions for their contact and wear close to the real values of pressure, temperature and speed of movement of the working medium.

The purpose of the invention is to ensure that the test conditions are close to operational. This is achieved by the fact that the test chamber is equipped with a hydrodynamic seal of the rotor shaft, the sample holders are made in the form of a cantilever disk mounted on the rotor and a sleeve covering it with a gap, axial and radial communicating channels are made in the disk, and

Axial and parallel peripheral channels for supplying and discharging the working medium are filled. FIG. 1 shows the proposed installation, the general view; in fig. 2 and 3 - sections of the test chamber in different versions of sample assembly.

The chamber / is equipped with a centrifugal hydraulic seal, consisting of: m of two

disks 2 mounted on the rotor shaft 3 and the seal body 4. The direction of water inlet and outlet is indicated by arrows in FIG. 3. When the rotor rotates, the water entering the housing is discarded to the periphery,

as a result, pressure is generated and a hydraulic seal is provided. At the same time, the flow water cooled the rotor shaft.

The camera body is connected to the lever loading mechanism 5 by means of a hinge bracket 6, which eliminates the violation of its coaxiality in the process of measuring the temperature of the medium and moves along the sliding rims 7 and 5 in the vertical direction. The hinge suspension, sliding supports with adjusting bolts 9 and guide boom 10 with repleni bolts reliably ensure the alignment of the chamber and the rotor, and set the amount of their misalignment.

The rotor shaft is mounted on two sub-bearing supports. The cantilever portion of the shaft ends with the disks 11 on which the specimens are attached. The position of the rotor disk relative to the shaft is fixed by means of three grooves, which prevent its alignment with the chamber during heating. The temperature of the rotating samples fixed on the shaft is measured using current collectors connected to thermocouples and indicating instruments. In order to reproduce various contact patterns of rotor 12 and stator 13 (i.e., mounted on the camera body) samples, the working medium is supplied only through stationary samples (medium inlet and outlet options are shown in Figs. 2 and 3 by arrows), and contains intermediate bodies 14 and 15, fixing each sample to the rotor, or to the camera body and performing the rotation of both the rotor samples relative to the static ones (Fig. 2) and the stator relative to the rotor samples (phi1G. 3). At the same time, the working medium is brought into the middle part of the seals, and is diverted through the gaps in two opposite directions. x, so that the rotor is balanced and has virtually no axial loads from the internal pressure. Taking into account that the camera body should move freely in radial directions, the pipelines for supplying the working medium are connected by bellows 16, and the pipelines for water are connected by flexible hoses. To implement the hard knight of the rotor and the stator, about: pattern 1B with a predetermined force, the load is set on the lever

fi /./ 17, one of the axes J8 is removed and the screws with thumb 9 are slowly withdrawn. The drive also has a variable number of revolutions and allows the rotation speed of the rotor to be varied. The evaluation of the performance of the tested materials and designs of the samples can be carried out according to the amount of wear and tear, the size and nature of the change in power consumption, as well as the degree of heating of the samples and the magnitude of the vibration of the body and frame 20. In the experiments that were carried out use hot water or superheated steam. The subject of the invention is a test set for testing seal samples, comprising a test chamber with a casing, a rotor mounted coaxially with it, sample holders, a loading mechanism for the test samples, pipelines for supplying the working environment to the samples and means for registering the parameters to be examined, In order to bring the test conditions closer to the operational ones, the test chamber is equipped with a hydrodynamic seal of the rotor shaft, the sample holders are made as a console mounted on the rotor The axial and radial communicating cavities are made in the disk and the sleeve covering it with a gap, and the axial and parallel peripheral channels are made in the chamber for supplying and discharging the working medium.

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