SU1677584A1 - Fatigue test set - Google Patents

Abstract

This invention relates to a testing technique. The purpose of the invention is to improve the accuracy of setting the load when the sample is loaded in several directions by providing independent adjustment of the acting forces. Based on 1, a gripper 2 of sample 3, an elastic lever 4 with a pusher in the form of a glass 10 with protrusions 11 for interacting with an eccentric 7, a punch 9 for interacting with sample 3 and a support 5 connected with the lever 4 by a spherical hinge b are installed. The device for adjusting the rigidity of the lever 4 is made in the form of a sleeve 12 with screw stops 13. When the eccentric 7 is rotated, the sample 3 is loaded with a bend with independent adjustment of the loading forces acting in different directions. 1 il.

Description

The invention relates to testing equipment, and in particular to installations for testing fatigue when bending samples or full-scale parts, for example, cutters of mining machines, 5

The purpose of the invention is to increase the accuracy of the task load when loading the sample in several directions by providing independent adjustment of the existing forces. 10

In the drawing, the images of the proposed installation, general view.

The installation comprises a base 1, a gripper 2 for cantileverly securing the sample 3, an elastic lever 4 of the first kind, a support 5 connected to the lever by means of a spherical hinge 6, an eccentric 7 with a drive 8, a pusher interacting with the eccentric 7, connected to the lever arm 4, fixed to the other shoulder of the lever 4 pu- 20 anson 9 for interaction with the sample 3 and a device for adjusting the stiffness of the lever 4.

The pusher is made in the form of a coaxially mounted on the first shoulder of the lever 4 of the glass 10 with the protrusions 11 on its inner cylindrical surface. The rigidity control device is a sleeve 12 covering the first shoulder of the lever 4, with rows of screw stops 13 mounted along the length of the lever 4 radially relative to the sleeve 12, each row being located in a plane defined by the corresponding protrusion 11 and the axis of the lever 4.

Installation works as follows,

The test sample 3 is fixed in the gripper 2 and pressed by the working part to the punch 9. When the drive 8 is turned on, the ex-40 centric 7 transfers the load to the elastic lever 4 through the protrusions 11, bending its free part alternately in the required directions. The lever 4, bending, transfers the load to the sample 3 through the punch 9. Using the screw stops 13, the required departure of the free part of the lever 4 is established in each of the necessary directions of action of the loading forces, and consequently, the levels of the acting loading forces.

The invention allows to test both samples and full-scale parts, to realize complex loading of the test objects, to independently adjust the loading forces acting in different directions and to maintain the stability of the applied loads,

Claims (1)

15 claims A fatigue test installation comprising a base, a base mounted on a grip for cantileverly securing the sample, an elastic lever of the first kind, a support connected to the lever by a hinge, and an eccentric with a drive, a pusher interacting with the eccentric, connected to the lever arm, mounted on the other arm lever punch for interaction 25. · actions with the sample and a device for adjusting the stiffness of the lever, characterized in that, in order to improve the accuracy of the load when loading the sample in several By means of independent adjustment of the acting forces, the pusher is made in the form of a cup coaxially mounted on the first shoulder of the lever of the cup with protrusions on its inner cylindrical surface. stops, each row is located in a plane passing through the corresponding protrusion and the axis of the lever, the hinge is made spherical, and its movable the vein is coaxially mounted on the sleeve.