SU1389410A2 - Device for measuring axial effort acting upon gas blower shaft - Google Patents

Abstract

And & Finding is related to the force-measuring technique and allows to increase the reliability of the device and ensure hail: three elastic elements during operation of the gas blowers in any direction of the slope. The disk 13 mounted on the sleeve 12 of the cantilever cover 9 is fixed view of the casing covering the driven part 14. Couplings with an annular protrusion 15 on the outer surface. Attached to the disk 13, the ring 17 together with the disk and the driven part 14 of the coupling forms two chambers 19 and 20 of the adjustable super-induction. The rotor 32 is loaded with an axial force acting in the direction of the actuator 16, or in the opposite direction, by supplying compressed gas to chamber 19 or 20. Passed through the labyrinth seal 21 into the adjacent gas leakage chamber is vented through opening 24 or 23 to atmosphere. Some of the gas leaks through the coaxial orifices 26 and 27, made respectively in the slave 4 and leading 25 parts of the coupling, go to the side of the drive 16, opposite the zone of the elastic elements t with the strain gage with- :. The resistance strain gages are, by themselves, protected from the action of a gas jet, 2 Il. from 3 C

Description

The invention relates to a power serpentine technique and can be used in turbo-machine engineering.

The aim of the invention is to increase the reliability and ensure the calibration of elastic elements during the operation of the gas blower in any direction of force.

FIG. i is a schematic of the arrangement for measuring the axial force of the gas blower acting on the shaft in FIG. 2 - section aa in fig, 1 ,,

The device contains elastic elements 1 with strain gauges 2 and wires 3 connecting the strain gauges with the secondary M device (not shown),

The elastic elements 1 are connected on one side with the flange of the housing 4

on the other hand, with the clip .5 of the thrusting AMP of the ganfnik 6 with the help of adjusting screws 7j passed through the opening 8 of the landing cover 9o The equipment is supplied to the annular protrusion ICij in which the threaded openings II for the screws 7 are placed the disk 13 is fixed in the form of a casing; encompassing the driven part of the coupling lAj supplied with an annular protrusion 15a. g by n gazoduvkn Both the drive side Kiaer razdeleng between a labyrinth seal 21 on the annular flange 15, from the external environment chamber 9 is separated labyrinth densification neniem 22 and the chamber 20 - labyrinth seal 18 Each chamber is provided with nozzles 23 and L dL. Approach of the Compressed gaa. Into the home 84N of the leading part 5C 25s tlsTbt holes 26 and 27 are made for the removal of leakage rasa from the chamber to the side of the drive Zbv

The overpressure s is measured with the help of meter 28, between the hull of the gas chamber 29 and the cantilever lid 9, flanked by the lid 30 and attached from the axial shaft of the outer ring of the support ring 31 of the mouth oea 32 33 “The flange is equipped with annez 34 lining and 33 J sleeve, inside which 36 cage 5 is placed with a clearance 36, and the console cover 9 is placed on the bushing 35. The landing surface of the PO can be made in the form of a sphere.

The device operates as follows.

And the axial force is measured at the axial play of the supporting dog 31 with a preload of elastic elements by adjusting screws 7o. The magnitude of the axial force is determined by the difference in deformation magnitude values after loading the axial forces from the blower shaft and before loading.

Calibration of elastic elements directly on the working gas blower is performed by feeding in one MS chambers an adjustable boost (19 zzli 20) compressed gas from an external source

one

To load the rotor with an axial force acting in the direction of the drive c, the compressed gas is supplied to chamber 19. Gas leaks partially penetrate into adjacent chamber 20 and exit through pipe 24e, for example into the atmosphere and another part of the leakage penetrates through the lab seal 22 part of the coupling half 14 and through the holes 26 and 27s, coaxially made in the driven and driving parts of the coupling, go to the side of the drive 16, - In the case of using a leakage motor of a compressed gas as an electric drive, it additionally cools it. s in the chambers 19 and 20f the measured differential pressure gauge 28, and the area of the annular projection 15, the coupling halves vedo- my part specifies the magnitude of axial force S soot- recorded. Corresponding readings of strain gauges 2 o t axial force, to this, a calibration characteristic is made. If the rotor is loaded with axial sap in a reverse drive, then the compressed gas is installed in 20. Gas leakage. pass through this labyrinth through the labyrinth seal 21 into the adjacent chamber 19 and through the nozzle 23 into the atmosphere. At the same time, some of the leaks npoHHKaet through the ale. The seal 22 between the disk 13 and the driven part of the coupling half 4 and through the holes 26 and 27 is directed towards the right of the drive lead 16. Thus, in any direction of the rotor, the axial force of the gas stream from the holes 26 and 27 is directed towards the drive 16 opposite to the location of the strain gauges 2, which are protected by the gas jet.

Claims (1)

Formula and Zobretenk A device for measuring the axial force acting on the blower shaft according to the ed. Sa, 1122089, characterized by; that, in order to increase reliability and ensure the graduation of elastic elements during the operation of the blower in any direction ™ The research institute of force, the disk is made in the form of a casing enclosing the driven part of the housing, equipped with an annular protrusion on the outer cylindrical surface, attached to the drive side with a labyrinth seal, which together with the disk and the driven part of the coupling forms two chambers They are labyrinth seals along an annular protrusion and have holes for supplying the compressed gas outlet with gas in the driven and coupling parts and are made coaxially with the drive side.  c Fi & 1 f