SU1486873A1 - Installation for specimen fatigue testing - Google Patents

Description

The invention relates to test equipment, in particular to installations for testing specimens for fatigue in bending. The purpose of the invention is the expansion of functionality by ensuring the regulation of the asymmetry of the loading cycle during the test. The actuator 2 is kinematically connected with the screw 9, on which the mouth

The end grip 3 for sample 12 is added. At the free end of sample 12 there is a cantilever grip 4 with suspension 5, which interacts with cams 7 and 8 connected to the drive 2. the axial direction of the nut 10 associated with the additional drive 11. At the same time including the drives 2 and 11 and rotating the screw 9 and the nut 10 at equal speeds and in the same direction, load the sample 12 in alternating cyclic bending. By varying the relative speeds of the screw 9 and the nut 10, the asymmetry of the loading cycle during testing is adjusted. 1 ep f-ly,

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The invention relates to test equipment, in particular to installations for testing specimens for bending fatigue.

The purpose of the invention is to expand the functionality by ensuring the regulation of the asymmetry of the loading cycle during the test.

The drawing shows a general view of the installation.

The installation includes a housing 1, an actuator 2 mounted therein, an end gripper 3, a cantilever gripper 4 with a suspension 5, a mechanism 6 connected with the actuator 2 to rotate the mechanical gripper 3 and a cyclic loading mechanism 7 interacting with the suspension 5 with a cam 7. The installation is equipped with a second cam 8. , made in the form of a conoid and kinematically connected with the first cam 7 with the possibility of alternate interaction with the suspension 5. The mechanism of axial movement of the end grip 3 is made in the form of a screw pair with a screw 9, kinematically connected with the drive m 2 and with a fixed axial nut 10 associated with the additional actuator 11. The end-window capture console 3 and 4, the capture sample 12 is set.

The fatigue test setup works as follows.

Turns on at the same time drives 2 and 11 and insert screw 9 and nut 10 with equal speeds and in one direction. The actuator 2 and the mechanism 6 provide rotation of the sample 12 and the cams 7 and 8, which alternately interact with the suspension 5 and load the sample 12 with alternating cyclic bending. The asymmetry of the bending load cycle depends on the ratio of the diameters of the cross sections of the cams 7 and 8 at the level of the suspension 5. To change the ratio of the diameters, change the position of the suspension 5 with the sample 12 in the direction of the axes of the cams 7 and 8. To this end, change

the speed of rotation of the screw 9 relative nuts 10 or nuts 10 relative to the screw 9, as a result, the clamps 3 and 4, the suspension 5 and the sample 12 are moved in the axial direction. The magnitude of the deformation of the bend caused by the cam 7 does not change, but the magnitude of the deformation of the bend of the sample 12 is changed by the conoid cam 8, and this is achieved by adjusting the asymmetry of the loading cycle. The frequency of loading and the speed of rotation of the sample 12 change when synchronously changing the speeds of rotation of the screw 9 and the nut 10 with the help of the actuators 2 and 11.

The facility allows testing samples for alternating cyclic bending with changing loading cycle parameters in the process of testing without stopping the device.

Claims (2)

Claim 1. Installation for testing samples for fatigue, comprising a housing, an actuator installed in it, a face grip, a cantilever grip with a suspension, a mechanism for rotating the grip grip connected with a drive, and a cyclic loading mechanism interacting with the suspension with a cam, characterized in that extending the functionality by providing regulation of the asymmetry of the loading cycle during the test, it is equipped with a second cam kinematically connected with the first cam and installed with the possibility of Sequential interaction with the suspension, additional drive and the associated mechanism of axial movement of the end grip. 2. Installation according to p. ^ Characterized in that the mechanism of axial movement of the end grip is made in the form of a screw pair, the screw of which is connected with the main drive, and the nut with an additional one.