SU1714431A1 - Apparatus for bend-testing samples - Google Patents

Description

This invention relates to a testing technique, to bending fatigue tests.

The known installation for testing the flexural fatigue sample, comprising a base, has installed; 1; the first active and passive grippers for the sample, a loading mechanism associated with the active gripper and including a slotted platform, a device for moving the platform.

Closest to the present invention is a bending fatigue testing apparatus, comprising a base, active and passive grippers for the specimen mounted on it, a loading mechanism associated with the active gripper and including two platforms with slots, a roller placed in the slot of one from the platforms, a device for moving the platforms in a plane perpendicular to the axis of the claws, and a rotational drive with a drive shaft eccentrically mounted relative to the roller and kinematically associated with it.

The lack of installations consists in the fact that tests on them are not feasible when the ratios of values and directions of deformation development in bending planes are adjustable during the tests. The tests are carried out only at constant ratios of the magnitudes and directions of the development of bending deformations.

The aim of the invention is to enhance the functionality by providing tests both at constant and adjustable ratios of the values and directions of deformation development in bending planes, which are adjustable during the tests.

In the proposed installation, the platforms are installed parallel to each other, the roller is installed in the slots of the other platform and is connected pivotally to the active pickup of the sample, and the kinematic connection of the roller to the drive shaft is made parallel to the platforms and fixed on the drive shaft radially relative to the last guide, slider mounted in it with the possibility of movement and a force spring intended to move the slide along the guide, and the roller is fixed on the slide.

FIG. 1 shows an installation, a general view: FIG. 2 is a section A-A in FIG. one.

The installation for testing the bend fatigue specimen contains base 1, active 2 and passive 3 grippers for sample 4 mounted on it, the mechanism

loading associated with active gripper 2 and comprising two platforms 5 and 6 with slots 7 and 8, roller 9 placed in slot 7 of one of the platforms, tools 10 and 11 for moving the platforms in the plane perpendicular to the grips axis, and drive 12 with a drive shaft 13 eccentrically mounted relative to the roller 9 and kinematically connected with it.

Slots 7 and 8 in platforms 5 and 6 are made in the form of circles. The platforms are set pa |: allelly one another. Roller 9 is installed in slot 8 of another platform and is connected pivotally with an active gripper 2. The kinematic connection of roller 9 with the drive shaft 13 is made in the form of a parallel platform 5 and 6 and fixed on the drive shaft 13 radially relative to the last guide 14, the slider 15 mounted thereto with a possibility of movement, and the power spring 16 intended to move the slider 15 along the guide 14, and the roller 9 is fixed on the slider 15.

Devices for moving platforms are made in the form of screws 10 and 11 for vertical movement and screws 17 and 18 for horizontal movement of the respective platforms, connected in pairs by connecting threaded pads 19. Grip 2 is hinged on roller 9 and can move along stand 20 by rotating screw 21 The parameters of the spring 16 are chosen so as to ensure the roller is pressed against the walls of the slot for any deformations of the specimen.

The installation works as follows.

Sample 4 is set into grippers 2 and 3 and, by rotating the screw 21, the clamp 3 is shifted to the position in which the initial bending deformation of the sample is created. The screws 11, 17 and 10, 18 are rotated and the corresponding platforms 6 and 5 are moved to a position in which the holes 7 and B are displaced one relative to the other and relative to the axis of the shaft 13. At the same time, the portions of the walls of the hole form a figure defining the trajectory of the roller 9, and also set the position of the trajectory relative to the axis of the specimen grips. The actuator 12 is turned on and the shaft 13 is rotated with the guide 14, the slider 15 and the roller 9. The roller 9 interacts with the wall sections of the holes 7 and 8 and constantly presses against the walls of the spring 16. The gripper 2 moves with the roller and produces a circular bend sample 4.

To change the ratio of deformations on different bending planes, rotate

Claims (1)

Formula A test setup for testing a test for 25 bending fatigue, containing a base, active and passive grips of the specimen mounted on it, a loading mechanism associated with active gripping Figure 2 Volume I and comprising two platforms with slots, a roller placed in the slot of one of the platforms, devices for moving the platforms in a plane perpendicular to the axis of the grippers, and a rotation drive with a drive shaft eccentrically mounted relative to the roller and kinematically connected with it, characterized in that, in order to expand the functionality by providing tests both at constant and at the ratio of the magnitudes and directions of the development of deformations in the bending planes, cuts during the tests 15 platforms are made in the form of circles, the platforms are mounted parallel to one another, the roller is mounted in the slot of another platform and pivotally connected to the active capture of the sample, and the kinematic connection of the roller with the drive shaft is made in the form of a parallel platform and mounted on the drive shaft radially relative to the last guide , a slider mounted on it with the possibility of movement, and a power spring designed to move the slider along the guide, and the roller is fixed to the slider.