SU1672015A1 - Axial piston hydraulic machine housing test stand - Google Patents

Abstract

The invention can be used to test the strength of the bodies of axial-piston hydraulic machines. The aim of the invention is to reduce the test time for creating spatial loading on the shaft. A device for testing axial-piston hydraulic machines has a lower yoke 1, pillars 2, an upper yoke 4 with a flange 5 and a radial slide 6. A test housing 7 is attached to the upper traverse 4, inside the lower part of which, on rolling bearings 9 that receive radial 10 and axial 11 forces, a shaft 12 is located with an output shank 13 fixed in a square hole of the sleeve 14. The other end of shaft 12 is provided with a ball bearing 15, located eccentrically relative to the axis of the shaft 12 and contacting through a hemispherical recess in the inclined plane of the pusher 16. The sleeve 14 is rigidly fixed to the flange 17 of the housing 7, inside the housing 7 is mounted an abutment ring 22 to receive the axial n loads 11. Housing 7 can be equipped with strain gauges. When the load 24 is cyclically applied to the pusher 16, radial 10 and axial forces 11 and torque 23 are generated, which sets the test conditions taking into account the assessment of static and dynamic strength. 4 il.

Description

The lower part of the housing 7 on the rolling bearings 9, which receive the radial 10 and axial force 11, houses the shaft 12, the output shaft 13 of which is fixed in the square hole of the sleeve 14. The other end of the shaft 12 is made in the form of an eccentric ball bearing 15 contacting through a hemispherical recess in an inclined plane of contact with a vertically positioned pusher 16 installed in the Support 6 of the upper traverse 4. The sleeve 14 is rigidly fixed to the flange 17 of the lower part of the housing 7 of the hydraulic machine using a cross firing bolts 18.

The lower yoke 1 is fixed to the frame 19 by means of bolts 20 and nuts 21. To receive the axial load 11, an anvil ring 22 is installed in the lower part of the housing 7. Depending on the size of the hydraulic machinery housing 7, flange 5, sleeve 14 and shaft 12 are made of different calibers. The housing 7 can be equipped with strain gauges.

The device works as follows.

By cyclically acting on the pusher 16 of the load device (conventionally not shown), axial 11 and radial 10 loads are created on the shaft 12, as well as torque 23 arising from the eccentric application of force 24 of the pusher 16 to the ball bearing 15 and transmitted through a right-angle tail 13 the shaft 12 and the sleeve 14 on the flange 17 of the housing 7 of the hydraulic machine, which creates equivalent loads arising under real operating conditions of the hydraulic machine. The level of loads can be controlled by temperature sensors.

Thus, the device allows to perform various test conditions for hydraulic machine hulls, taking into account the evaluation of their static and dynamic strength while reducing the time and cost for complex testing.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION A device for testing housings for axial-piston hydraulic machines, comprising upper and upper traverses mounted on racks, a tested housing with a shaft located on bearings inside the lower part of the housing, a ball-bearing pusher interacting with a loading device, characterized in that in order to reduce the time of testing when creating a spatial load on the shaft, the body is equipped with a sleeve and fixed to the flange of the upper traverse, in the central hole of which is mounted a pusher It is equipped with a hemispherical recess in an inclined plane, which interacts with an eccentrically located spherical shaft support, the output shank of which is fixed in the square hole of the sleeve rigidly attached to the bottom flange of the housing. 3 8 6 & № 5 w / shh. t. i s s SbSsssis eight Aa 23 P 15 Fig.Z 2 18 23 gK P