RU99173U1 - TEST STAND FOR SHOCK LOAD TEST SAMPLES - Google Patents

Abstract

 1. A stand for testing samples with an impact load, comprising a housing, two flywheels mounted on it with rotational drives, a rod mounted to interact with the first flywheel, a guide to move the rod mounted to interact with the second flywheel, a sample gripper placed on the line the movement of the rod, characterized in that the stand has a base, and the body is made in the form of a rotary platform and mounted on the base. ! 2. The stand according to claim 1, characterized in that the capture of the sample is fixed on the guide.

Description

The invention relates to testing equipment, to strength tests.

A well-known stand for impact testing of samples (RF patent No. 1629816, class G01N 3/34, 1989), comprising a housing, two flywheels mounted on it with rotation drives, a rod installed with the possibility of interaction with the first flywheel, a guide for moving the rod installed with the possibility of interaction with the second flywheel, the capture of the sample, placed on the line of movement of the rod.

The disadvantage of the stand is that it is impossible to test when adjusting the angle between the vectors of the mechanical load and the load from the dead weight of the test sample, as well as when changing the magnitude and sign of the load from the dead weight of the sample.

A well-known stand for impact testing of samples (RF patent No. 1696960, class G01N 3/34, 1991), comprising a housing, two flywheels with rotation drives mounted on it, a rod installed with the possibility of interaction with the first flywheel, a guide for moving the rod installed with the possibility of interaction with the second flywheel, the capture of the sample, placed on the line of movement of the rod.

The disadvantage of the stand also lies in the fact that tests are impossible on it when adjusting the angle between the vectors of the mechanical load and the load from the dead weight of the test sample, as well as when changing the magnitude and sign of the load from the dead weight of the sample.

A known stand for impact testing of samples (the decision to grant a patent for an invention according to the application No. 5021491/28/001619, class G01N 3/34, dated July 17, 1995) is taken as a prototype. The stand comprises a housing, two flywheels mounted on it with rotational drives, a rod installed with the possibility of interaction with the first flywheel, a guide for moving the rod installed with the possibility of interaction with the second flywheel, a sample capture located on the line of movement of the rod.

The disadvantage of the stand also lies in the fact that tests are impossible on it when adjusting the angle between the vectors of the mechanical load and the load from the dead weight of the test sample, as well as when changing the magnitude and sign of the load from the dead weight of the sample.

The technical result of the invention is to increase the amount of information obtained by providing research when adjusting the angle between the vectors of the mechanical load and the load from the dead weight of the test sample, as well as when changing the magnitude and sign of the load from the dead weight of the sample.

The technical result is achieved by the fact that the stand for testing samples with an impact load, comprising a housing, two flywheels mounted on it with rotation drives, a rod mounted to interact with the first flywheel, a guide for moving the rod, mounted to interact with the second flywheel, sample capture placed on the line of movement of the rod, according to the invention, the stand has a base, and the body is made in the form of a rotary platform and mounted on the base.

The technical result is also achieved by the fact that the capture of the sample is fixed on the guide.

In the proposed stand, it is possible to rotate the housing with elements placed on it, which is not in the prototype and creates a new technical result, the ability to change the angle between the vectors of the mechanical load and the load from the dead weight of the test sample. Securing the grip on the guide allows you to get an additional technical result - a change in the magnitude and sign of the load from the dead weight of the sample due to the ability to move the sample at a speed greater than the speed of free fall.

The invention relates to testing equipment, to strength tests.

Figure 1 presents a diagram of the stand.

The stand for testing samples with shock loading comprises a housing 1, two flywheels 2, 3 mounted on it with rotation drives 4, 5, a rod 6 mounted with the possibility of interaction with the first flywheel 2, a guide 7 for moving the rod 6, installed with the possibility of interaction with the second flywheel 3, capture 8 of sample 9, placed on the line of movement of the rod 6.

The stand has a base 10. The housing 1 is made in the form of a rotary platform and is installed on the base 1.

The capture 8 of the sample 9 is fixed on the guide 7.

The interaction of the flywheel 2 with the rod 6 is carried out using the rod 11 connected to the rod 6, and the pressure roller 12. The interaction of the flywheel 3 with the guide 7 is carried out using the rod 13 connected to the guide 7, and the pressure roller 14. The housing 1 is mounted in a vertical plane on the supporting wheels 15. The rod 6 is held in its initial position by a latch 16, the operation of which is synchronized with the pressure roller 12. The guide 7 is held in its original position by a latch 17, the operation of which is synchronized with the pressure roller 14.

The stand works as follows.

Actuators 4 and 5 are turned on and flywheels 2, 3 are accelerated to predetermined speeds, while the rotation speed of the flywheel 3 is set taking into account the required load reduction from the dead weight of the sample 9, and the rotation speed of the flywheel 2 is set taking into account the set speed of the shock loading of the sample. When reaching the specified rotation speeds of the flywheels, the latches 16, 17 are turned off and the rollers 12, 14 are turned on and the rod 6 is pressed against the flywheel 2 and the guide 7 to the flywheel 3. The guide 7 moves down, which makes the load on the sample 9 from its own weight decrease to a predetermined level . Since the capture 8 of the sample is mounted on the end of the guide, the sample can move at a speed greater than the speed of free fall, and then the load from the dead weight of the sample will be tensile. Then the rod 6 overtakes the sample and produces shock loading of the sample 9. If the flywheels rotate in the opposite direction, then the shock loading of the sample occurs when the sample is loaded with an force greater than its own weight. To change the angle between the vector of the load from the action of its own weight and the vector of mechanical load, turn the housing 1 at a given angle. This changes the direction of the mechanical load in relation to the load vector from its own weight, always directed vertically.

The stand provides testing in new conditions - when adjusting the angle between the vectors of the mechanical load and the load from the dead weight of the test sample (product), as well as when changing the magnitude and sign of the load from the dead weight of the sample.

Claims (2)

1. A stand for testing samples with an impact load, comprising a housing, two flywheels mounted on it with rotational drives, a rod mounted to interact with the first flywheel, a guide to move the rod mounted to interact with the second flywheel, a sample gripper placed on the line the movement of the rod, characterized in that the stand has a base, and the body is made in the form of a rotary platform and mounted on the base. 2. The stand according to claim 1, characterized in that the capture of the sample is fixed on the guide.