SU1016599A1 - Stand for testing shaft seals - Google Patents

Abstract

1. STAND FOR TESTS OF SEALS OF SHAFTS, containing a working shaft with a set of eccentric sleeves, a test chamber with a housing in which rum is installed, and a testing mechanism, which is different in the plane, perpendicular to the rotation, and measuring and control equipment, different that, for the purpose of approaching the test conditions of the Scientific Research Institute to the exported, the housing of the seal being tested is made in the form of a spherical articulated bearing of druch, rings, the test seal: -, placed in the inner ring along schshShika in Kojvpuse ispggatelaoy camera mounted axially movable mechanism uppotn audio, sv5kzashshy Koldo with inner and radially movable compacting mechanism coupled to the outer ring of the bearing. 2. The stand according to claim 1, which is based on the fact that displacement sensors associated with the inner and outer rings of the bearing are installed in the test chamber of the test chamber.

Description

The invention relates to a test technique and can be used dp testing shaft seals, mainly radial. Known stands for testing radial shaft seals, containing a drive, test chambers for installing test seals in them, working shafts and auxiliary shafts located on both sides of them in the canyons, one of the ears of each chamber being split and equipped with an adjusting screw, ensuring the creation of an eccentricity between the working shaft and the test chamber 13. The drawbacks of the described stand construction are the lack of a device for imitating the operating values of the transducer her working shafts and seal housings, as well as the complexity of the design due to the large number of shafts. Also known are test stands for radial shaft seals, comprising a drive, test chambers, each consisting of a housing, an operating drive shaft, and a sealing housing. For testing in a dusty environment, chambers can be equipped with dust attachments with impellers. The benches contain the necessary contrametric (-measuring apparatus. At the same time, to measure the torque moment T of the friction force in the seals, the camera body is balanced and communicates through the lever with the force sensor. To create misalignment of the eccentricity) between the axes of the drive shaft and the tested seal the seals are moved relative to the camera body, and eccentric C23 bushings are placed on the drive shaft to create radial beats. The disadvantage of such structures is that they also do not allow to imitate the operating values of tilting of the axes of the working shafts and the housings of the supports. In addition, in the known stands, the necessary misalignment is changed without its direct control after some testing and weakening - tightening the shafts in the ears of the chambers 1 3 or the hull of the seals 2, which is inconvenient in operation. The purpose of the invention is to approximate the conditions of testing seals to operational ones by imitating the necessary misalignment between the axes of the seal and the working shaft while simultaneously increasing the AI convenience of adjusting the required misalignment values. This goal is achieved in that for testing shaft seals containing a working shaft with a set of eccentric sleeves, a test chamber with a body in which the body of the test seal is installed and the mechanism for moving the seal in a plane perpendicular to the axis of rotation, the body of the test seal is spherical bearing of two rings, the test seal is placed in the inner ring of the bearing, the mechanism of axial movement of the seal is installed in the body of the test chamber This is associated with the inner ring, and the mechanism for radial movement of the seal is associated with the outer ring of the bearing. In addition, displacement sensors associated with the outer and inner rings of the bearing are installed in the body of the test chamber. Fig. 1 shows the design of the test chamber; in fig. 2 is a section A-A in FIG. 1, the Stand includes an actuator (not shown), the output shaft of which is connected to a working drive shaft 1 installed in the bearing assemblies of the test chamber housing 2, In the housing 2 with the possibility of vertical movement of the flax hinged spherical bearing, the outer ring 3 of which interacts, vuet with adjusting viigami 4, and the inner 5 - with adjusting screws b {and in it is placed in the replaceable sleeve 7 the test seal 8, at the same time the plane passing through the working lip of the seal must match to put with the axis. spherical bearing hinge. To simulate the required values of radial beats, a replaceable eccentric sleeve 9 is installed on the shaft 1, and to simulate the operating-environmental conditions, an impeller 1O is installed on the shaft 1, supporting the dust in the attachment 11 to the chamber during rotation in suspended suspension. For direct measurement of misalignment and misalignment in body 2, displacement sensors 12 and 13 are installed, and for measuring torque from friction forces in the final seal, body 2 is mounted balacrically in bearings 14 of base 15 and a strain gauge beam 16 is connected to the base, 16 works Next, in a search manner, s seal seal 8 is installed in a replaceable, made to the standard size of the seal, sleeve 7 "iak, so that the plane of the working edge coincides with the ocbici of the spherical under-1c hinge al 1 ycTaHiaBi raBa a bush 9 carrying hodvmogo tipbrazmer a (with eccentricity shsh without it), a stirred spherical bearing according Ver | ticked by means of screws 4 and warping ts ere ring 5 by vshggov 6 usta1016 99.4 navlivayut necessary quantities nvsooonosti and skew in dust The attachment 11 is filled up abruptly, and the working cavity is filled with lubricant. The drive shaft 1 reproduces the specified operating conditions of the shaft and the seal. The technical and economic efficiency of the invention consists in .fi of determining the technical capabilities of the proposed stand and approximating the condition Hcmd of the gasket to the operational ones. At the same time, due to the non-congenital control of the misalignment values of the skewness of the skew, it is increased the convenience of operating cret yes. The validity of the test results increases significantly.

Claims (2)

1. STAND FOR TESTS OF SHAFT SEALS, comprising a working shaft with a set of eccentric sleeves, an experimental chamber with a housing in which the housing of the test seal is mounted and a mechanism for moving the seal in a plane perpendicular to the axis of rotation, and control and measuring equipment, characterized in that, in order to bring the test conditions closer to operational, the housing of the test seal is made in the form of a spherical spherical plain bearing of two rings, the test seal: ·, is placed in the inner ring of the bearing ka, in the test cell housing is mounted axially displaceable sealing mechanism associated with the inner ring, and the radial displacement mechanism associated with sealing the outer ring of the bearing. 2. Stand by π. 1, due to the fact that displacement sensors connected to the inner and outer rings of the bearing are installed in the housing of the test chamber.