RU2051366C1 - Plant for strength testing of materials - Google Patents

Abstract

FIELD: testing equipment. SUBSTANCE: plant is fitted with second roller 10 put on other end of lever 2 and coupled to rotation drive 9, wheel 11 mounted on baseplate and fixture 12 to turn wheel 11 which rotation plane is parallel to movement plane of lever 2. Passive gripper 8 of sample 4 is anchored on internal surface of wheel 11. EFFECT: expanded functional capabilities by provision for testing under loading with both axial and bending loads and by both types of loads when proportion between them is controlled. 1 dwg

Description

 The invention relates to testing equipment, to strength tests.

 A known installation for testing materials for strength, containing a base, a lever mounted on it, an active grip of the sample pivotally connected to the lever, a roller mounted on one end of the lever, a rail rigidly connected at one end to the roller, a load mounted on the other end of the rail Passive capture and rotation drive.

 However, tests on it are carried out under the action of only axial load. Loading the sample with a bending load and with an adjustable ratio of bending and axial loads on the installation is not feasible.

 The objective of the invention is to expand the functionality by providing testing both axial and bending, and together both types of loads when changing the ratio between them.

 The problem is solved in that the installation is equipped with a second roller mounted on the other end of the lever and connected to the rotation drive, a wheel mounted on the base, and a device for turning the wheel, the plane of rotation of which is parallel to the plane of movement of the lever, and the passive grip of the sample is fixed on the inner surface of the wheel .

 With this design, the wheel is a load transducer and, depending on its rotation, the load on the specimen can be axial compressive or tensile, bending and combined.

 The drawing shows the installation diagram.

 The installation for testing the strength of materials contains a base 1, a lever 2 mounted on it, an active grip 3 of sample 4, pivotally connected to the lever, a roller 5 mounted on one end of the lever 2, a rail 6, rigidly connected at one end to the roller 5, the load 7, mounted on the other end of the rack 6, a passive capture 8 and the rotation drive 9.

 The installation is equipped with a second roller 10 mounted on the other end of the lever 2 and connected to the rotation drive 9, a wheel 11 mounted on the base, and a device 12 for turning the wheel 11, the plane of rotation of which is parallel to the plane of movement of the lever 2, and the passive capture 8 of the sample is fixed to the inner surface of the wheel 11.

 Active capture 3 is mounted on the lever 2 on the hinge 13. The rotation on the roller 5 from the actuator 9 is transmitted through a flexible gear 14. The wheel 11 is supported by gears 15.

 Installation works as follows.

 The drive 9 is turned on and the roller 5 is driven into rotation by a rail 6 and a load 7. The load 7 through the lever 2, the hinge 13 and the gripper 3 transfers cyclic loads to the specimen 4. To change the type of load, the wheel 11 is rotated using the tool 12. Moreover, together with The gripper 8 moves with the wheel 11 and the sample 4 rotates. An axial load acts together with a bending load. In the position of the specimen parallel to the lever 2, a pure bending load acts on the specimen. With further rotation of the wheel, bending and tensile loads are applied.

 The installation provides testing of samples in new conditions when changing the type of load during the experiment.

Claims (1)

 INSTALLATION FOR TESTING MATERIALS FOR STRENGTH, containing a base, a lever mounted on it, an active grip of a sample pivotally connected to the lever, a roller mounted on one end of the lever, a rail rigidly connected at one end to the roller, a load mounted on the other end of the rail, passive sample capture and rotation drive mounted on the base, characterized in that it is provided with a second roller mounted on the other end of the lever and connected to the rotation drive, a wheel mounted on the base, and a device for gate wheel rotation plane which is parallel to the plane of the lever and the passive grip the sample fixed on the inner surface of the wheel.