RU2047156C1 - Stand dynamic tests of specimen - Google Patents

Abstract

FIELD: strength tests of materials. SUBSTANCE: specimen 7 is accelerated by means of two accelerating devices; each accelerating device has flywheel 4,5 with rotation drive 6, rod 7, 8 and device 9 for pressing the rod to flywheel. Flywheels have different diameters and are mounted on common shaft 14; rods are located in parallel relative to each other. Passive grip 10 for specimen is secured on rod 7; rod 8 is linked with active grip 12 through spring 13. Specimen is loaded by successive impacts due to impact interaction of active grip 12 with weights 3 mounted in guide 2. Since rods have different speeds due to different diameters of flywheels and rod 8 is linked with active grip through spring, smoothly changing load is also created on specimen. EFFECT: proportional change of speeds of smooth and impact loads. 1 dwg

Description

 The invention relates to testing equipment, to strength tests.

 A well-known stand for dynamic testing of a sample, containing a base, a guide installed in it, weights installed in the guide, two booster devices, each of which includes a flywheel with a rotation drive, a rod and a device for pressing the rod to the flywheel, a passive sample grip, mounted on one barbell, and active grip, installed with the possibility of shock interaction with the loads.

 The disadvantage of the stand is the inability to conduct tests with a proportional change in the speeds of smooth and shock loads.

 The objective of the invention is to increase the accuracy of tests by providing a proportional change in the speed of smooth and shock loads.

 The problem is solved in that the rods are arranged in parallel, the second rod is connected through the spring to the active gripper, and the flywheels have different diameters and are mounted on a common shaft.

 The drawing shows a diagram of the stand.

 The test bench for dynamic testing of the sample contains a base 1, a guide 2 mounted on it, weights 3 installed in the guide, two booster devices, each of which includes a flywheel 4 and 5 with a rotary drive 6, rods 7 and 8, a device 9 for preloading the rods to flywheels, passive capture 10 of sample 11, mounted on one rod 7, and active capture 12, mounted with the possibility of shock interaction with loads 3.

 The rods 7 and 8 are arranged in parallel, the second rod 8 is connected through the spring 13 to the active gripper 12. The flywheels 4 and 5 have different diameters and are mounted on a common shaft 14.

 The connection of the spring 13 with the rod 8 is through the pusher 15.

 The stand works as follows.

 Drive 6 is turned on and flywheels 4 and 5 are rotated through shaft 14 at a given speed. The device 9 draw the rods 7 and 8 to the flywheels 4 and 5. The rod 7 moves the gripper 10 with the sample 11, the gripper 12 periodically collides with the loads 3 and loads the sample 11 with a step-like shock load. At the same time, the rod 9 deforms the spring 13 and through the capture 12 creates a smoothly varying load on the sample. The rate of change of the shock load is proportional to the rate of change of the smooth load. The proportionality is set by changing the stiffness of the spring 13 or the ratio of the diameters of the flywheels 4 and 5. When placing the rod with the sample on the flywheel of a smaller diameter, the tests are carried out with a smooth tensile load, with a larger diameter placed on the flywheel with a smooth compressive load.

Claims (1)

 STAND FOR DYNAMIC SAMPLE TESTS, containing a base, a guide mounted on it, weights installed in the guide, two accelerating devices, each of which includes a flywheel with a rotation drive, a rod and a device for pressing the rod against the flywheel, a passive sample grip mounted on one rod , and an active grip of the sample, installed with the possibility of impact interaction with the loads, characterized in that the rods are parallel, the second rod is connected through the spring with the active grip, and the flywheel and have different diameters and are mounted on a common shaft.