SU1682875A1 - Fatigue specimen test unit - Google Patents

Abstract

This invention relates to a testing technique. The purpose of the invention is the expansion of functional; capabilities by providing adjustment of the amplitude and stiffness of loading during testing. The installation includes a housing 1. a cantilevered 2 and an end 3 grippers of the sample mounted on it, a rotational drive of the end gripper, a loading mechanism including an eccentric 6 with adjustable eccentricity and a rotational drive 7, a ball suspension 8, connected to the cantilever grip 2, the power spring 9 connecting the eccentric with the suspension, the spring guide rod 10, the guide 11 and pairs of clamps 12 and 13 installed at the same level, size in the guide along the rod and intended to connect the spring sections respectively with the guide and the rod. The end of the guide is fixed on the eccentric and the opposite end of the guide is fixed on the suspension, or the end of the guide is fixed on the suspension to the eccentric 1 z p f-ly, 2 silt fe

Description

The invention relates to testing equipment, and in particular to installations for testing samples for fatigue.

The aim of the invention is to expand the functionality by providing regulation of the amplitude and rigidity of the load during testing.

In FIG. 1 shows an installation diagram; nafig. 2 - site placement clamps.

Installation contains; · a casing 1, a cantilever 2 mounted thereon and 3 sample grippers 3, a mechanical gripper rotation drive 5, a loading mechanism including an eccentric with adjustable eccentricity and a rotation drive 7, a ball suspension 8 connected to the console grip, a power spring 9, connecting the eccentric to the suspension, and the guide rod 10 for the spring.

The installation is equipped with a guide '11, clamps 12 installed in the guide along the rod, arranged in pairs at the same level and designed to connect sections of the spring 9 with the guide and with the rod. The guide 11 and the rod 10 are fixed by one of its ends located on opposite sides, respectively, to an eccentric or suspension. The sections of the spring 9 between the clamps have different stiffness characteristics.

The bi-directional actuator is magnetic and mounted on sliders 14. Each latch consists of an armature 12 (13) and a coil 15, and on the shaft '10 35, 11 made serrated notches for interaction with anchors. The eccentricity of the eccentric S is regulated by a screw 16 and a slider 17.

The installation works as follows 6. Turn on one of the clamps 12 and connect the end of one of the spring sections 9 with a rod 10 and the clamp 13 on the other slider 14. This leads to cyclic deformation of the spring section by an eccentric 6. and to cyclic loading by bending of a rotating sample 4. The amplitude and rigidity of the installation is regulated by switching the latches 12 and 13.

Using the proposed installation will allow testing of samples when adjusting the amplitude and rigidity of the loading of the sample.

Claims (1)

Claim 15 1. Fatigue test specimen installation, comprising a housing, end-mounted and cantilever grip mounted on it, an end-grip rotation drive, a loading mechanism including an ex20 centric with adjustable eccentricity and a rotation drive, a ball suspension connected to the cantilever, power a spring connecting the eccentric to the suspension and a spring guide rod 25, characterized in that, in order to expand the functionality by providing regulation of the loading amplitude, it is supplied with on the guide, in pairs of latches installed at the same level in pairs 30, located in the guide along the rod and intended to connect the spring sections to the guide and the rod, respectively, the end of the guide is fixed to the eccentric, and the end of the rod opposite to this end is fixed to the suspension, or the end of the guide is fixed on the suspension, and the opposite end of the shaft is on the eccentric. 40 2. Installation according to claim 1, characterized by zom. The drive 5 is turned on and the grip '3 with the sample 4 is rotated. The drive 7 is turned on and the eccentric is rotated so that, in order to expand functionality by changing the loading stiffness, the sections of the spring have different stiffness characteristics.