SU1718020A1 - Dynamic test stand - Google Patents

Abstract

The invention relates to the study of the strength properties of materials. The aim of the invention is to expand the operational capabilities by increasing the rate of acceleration of the sample. The stand contains a guide 2 with cargo 3 placed in it with the possibility of movement, grippers 4 and 5 for sample 6, a sprinter device including a flywheel 7 with a rotational drive 8, a rod and a device 10 for pressing the rod to the flywheel. The bar is made of two parts 9 and 11, loosely inserted one into the other. An axial clearance is established between the boom portions. The size of the gap is chosen from the condition of pre-accelerating part 9. of the rod to a predetermined speed by the time it interacts with part 11 of the rod, which is associated with gripping 5. Thus, a given initial speed of movement of one of the sample ends is provided, which causes the sample to be loaded with a large inertial load. before the interaction of the capture 4 with the goods. 1 h. apt. 1 il.

Description

The invention relates to testing equipment, to installations for testing samples of materials and products for the stepwise impact of a shock load.

A well-known stand for dynamic testing of samples, containing a base, a guide fixed on it, loads placed in it with the ability to move, grippers for the sample, one of which is designed to interact with loads, an accelerating device including a flywheel with a rotation drive, a rod connected at one end with the second capture of the sample, and a device for preloading the rod to the flywheel.

Closest to the proposed one is a stand for dynamic testing of samples, containing a base, a guide fixed on it, loads placed in it with the ability to move, grippers for the sample, one of which is designed to interact with loads, an accelerating device including a flywheel with a rotation drive, a rod connected at one end with the second capture of the sample, and a device for preloading the rod to the flywheel.

A disadvantage of the known stands is that the tests are carried out at a relatively low speed of dispersal of the sample. This limits the operational capabilities of the stands.

The aim of the invention is to expand operational capabilities by increasing the speed of dispersal of the sample.

The aim of the invention is achieved in that the rod is made of two parts, freely inserted one into the other with an axial clearance, the value of which is selected from the condition of providing preliminary acceleration of one of the parts to a given speed.

In addition, the stand is equipped with additional flywheels installed along the path of the rod, rotation drives of the additional flywheels and devices for alternately pressing the rod to the surface of the additional flywheels.

The drawing shows a diagram of the stand, a General view.

The stand for dynamic testing of samples contains a base 1, a guide 2 mounted on it, weights 3 placed on it with the ability to move, grips 4 and 5 for sample 6, one of which 4 is designed to interact with loads 3, an accelerating device including a flywheel 7 s a rotation drive 8, a rod 9 connected at one end to a second sample gripper 5, and a device 10 for preloading the rod 9 to the flywheel 7.

The rod 9 is made of two parts 9 and 11 freely inserted one into the other with an axial clearance, the value of which is selected from the condition of ensuring the preliminary acceleration of one of the parts 9 to a given speed.

The stand is equipped with additional flywheels 12 and 13, installed along the path of the rod, the drives 14 and 15 of rotation of the additional flywheels 12 and 13 and devices 16 and 17 for alternately pressing the rod to the surfaces of the additional flywheels.

The rod element 11 has a guide portion 18 with a friction lining 19 for interacting with additional flywheels 12 and 13. The gripper 5 is pivotally connected to the rod element 11. Devices 16 and 17 for preloading the rod to the flywheels are made in the form of rollers with springs.

The stand works as follows.

The drives 8, 14 and 15 are turned on and the flywheels 7, 12 and 13 are accelerated to the specified rotation speeds. Using the device 10, the rod 9 is pressed against the flywheel 7. The rod 9 starts moving, accelerates to a predetermined speed and interacts with the element 11. The element 11 comes into motion together with the grippers 5 and 4 and the sample 6. When moving the ligament along the guide 2 the gripper 4 interacts sequentially with the loads 3 and stepwise loads the sample 6 with compressive force. As the rod 11 moves, the friction lining 19 interacts sequentially with the flywheels 12 and 13, which changes the speed of the ligament in accordance with the acceleration speeds of the flywheels. This controls the speed of impact of the sample with the cargo, i.e. sample loading speed on steps.

The bench allows testing at elevated acceleration rates of the sample, which gives a high initial inertial load on the sample and an increase in the loading speed of the sample.

Claims (2)

Claim 1. A stand for dynamic testing of samples, containing a base, a guide fixed on it, placed in it with the ability to move loads, grippers for the sample, one of which is designed for interaction with loads, an accelerating device including a flywheel with a rotation drive, a rod. connected at one end with the second grip of the sample, and a device for preloading the rod to the flywheel, characterized in that, in order to expand operational capabilities by increasing the acceleration speed of the sample, the rod is made of two parts, freely inserted one into the other with an axial clearance, the value of which is selected from the condition of providing preliminary acceleration of one of the parts to a given speed. ’' 2. The stand according to Claim 1, with the fact that it is equipped with additional flywheels installed along the path of the rod, rotation drives of the additional flywheels and devices for alternately pressing the rod to the surfaces of the additional flywheels.