SU1422091A1 - Centrifugal installation for testing specimens - Google Patents

Abstract

This invention relates to a testing technique. The aim of the invention is to enhance the functionality of centrifugal test facilities of samples by ensuring the destruction of multiple 16. 5 1 9 J7 727/78 10 d6 with blows with adjustable sample discharge rate after blows. The cylinders 5 and 6 are rigidly fixed to the guide 4 mounted on the rotating shaft 2. The inertial load 13 is held onto the rod 9 by the electromagnet of the fixing unit 14. Sample 12 is fixed on the rod 10. After de-energizing the coils of the electromagnet of the fixing unit 14, the load 13 mixes along the guide 4 and strikes the sample 12. The holding time of the sample under load is controlled by the movement of the rod 10 of the hydraulic cylinder 6, after which the load 13 is fixed again on the rod. The magnitude of the shock load is adjusted by installing the rod 9 with the load 13 in the specified position. 1 il. / J 727/78 10 d6 with S (/ С

Description

The invention relates to a test apparatus, in particular to installations for testing samples of materials for strength.

The purpose of the invention is to enhance the functionality by providing loading with multiple shocks with an adjustable sample unloading rate after shocks.

The drawing shows a centrifugal unit for testing samples. : The installation comprises a housing 1, a shaft 2 mounted therein with a 3 rotational drive. The guide 4 is fixed on the shaft 2 perpendicular to its axis. The cylinders 5 and 6 with gears 7 and 8 and the rods 9 and 10 are coaxially mounted on the guide 4. The gripper 11 for sample 12 is fixed on the brush 10. The inertia load 13 is mounted in the guide 4 with the possibility of sliding along the shaft. The load fixing unit 14 is fixed on the Yoke 9 and contains an electromagnetic coil, the core of which is the inertial load 13. The cavities of the cylinders are connected to a source 15 of pressure by cranes 16-19. On sample 12 is fixed drummer 20.

The installation works as follows.

The drive 3 is turned on and the rotation 4 is accelerated by the rotation of the shaft 2 to a predetermined rotational speed. The coil of the fixing unit 14 is de-energized and the load 13 is disconnected from the rod 9. Under the action of centrifugal force, the load 13 moves along the directional direction and strikes the sample 12. After: holding the sample under load set time: open valve 19 and supply liquid ; the bone under pressure from the source 15 into the cylinder piston cavity 6.; The rod 10 moves the gripper 11, sample 12, the hammer 20 and the load 13 in the direction of the rod 9. At the same time, the rotation radius of the load 13 decreases, and the load on the sample decreases. The rate of load drop is controlled by the speed of movement of the rod 10. When brought to the fixing unit 14, the load is fixed on the rod 9. The final unloading of the sample is performed when the specimen is retracted when the fluid is pumped under pressure through the valve 18.

By supplying the fluid through the valves 16 or 17, the load 13 is moved to a new initial position in accordance with the required value of the repeated shock load and

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The sample is re-loaded with a shock and then relieved. The holding time of the specimen in the loaded and unloaded states between shocks, the rate of unloading and the magnitude of the shock loads are changed in accordance with the test program. After the shock loading, the load on the sample can be gradually increased at an adjustable speed, for which the brush 10 together with the sample and the load is moved to a large radius of rotation of the fluid supply to the piston crown 6 above the piston. The device 14 is driven by a rod 9. After the device 14 is triggered, the fluid is supplied through the valve 17 and the load 13 is removed from the drummer 20. The force on the sample drops to zero with slight movements of the load, therefore The pack is carried out at high speed.

The installation allows investigating the dependence of the strength properties of materials on the speed of unloading upon repeated shocks, on the time the material is held under load and without load between shocks.

Claims (1)

Invention Formula 0 five A centrifugal unit for testing specimens, comprising a housing, a rotating shaft mounted in it, a guide rigidly fixed on the shaft perpendicular to its axis, an inertial load mounted in a sliding guide along it, two coaxial hydraulic cylinders whose axes parallel to the guide, the gripper for the sample fixed on the rod of one of the hydraulic cylinders and the source of pressure communicated with the working cavities of the hydraulic cylinders by means of cranes, characterized in that By providing loading with multiple blows with an adjustable sample unloading speed after the blows, it is equipped with an inertial load fixing unit fixed to the stem of the second hydraulic cylinder, and the hydraulic cylinders are rigidly fixed on the guide with each other opposite to the axis. shaft than the second. five