RU2017119C1 - Flexibility test machine - Google Patents

Abstract

FIELD: investigating strength properties of solid materials. SUBSTANCE: test machine has rack 5, grips 2,3 for specimen 4, lever 8 with weight 9, disk cam 13, locks 12, 14 and hinge 11. With lever 8 rocked 8 and locks 12, 14 switched-over, there occur change in axial position of rack 5 under its pivoting and reciprocating movements thereby changing the levels of loadings. EFFECT: enlarged functional capabilities. 1 dwg

Description

 The invention relates to strength tests.

 A known installation for deformation of a sample of material when testing its damping properties, comprising a base, active and passive grips of the sample mounted on it, connected to the base and with active gripping the rail, two elastic elements located on different sides of the passive gripping and associated with it, and a loading mechanism connected to the rail, including a lever with a load [1].

 The disadvantage of the installation is that it is not feasible to test it not only with a constant mode, but also with the regulation of load levels and the sign of axial load during the experiment.

 The aim of the invention is to expand the functionality by providing tests not only at a constant mode, but also when adjusting the load levels and the sign of the axial load during the tests.

 This is achieved by the fact that a longitudinal slot is made in the rail, the rail is connected to the base by means of a hinge in which the rail is mounted with axial movement, and a latch for connecting the rail to the hinge, and the installation is equipped with an eccentric mounted on the lever axis and placed in the rail slot , and the cam lock relative to the rail.

 The drawing shows the installation diagram.

 An apparatus for deforming a material sample when testing its damping properties comprises a base 1, active 2 and passive 3 grips of sample 4 mounted on it, connected to the base and with active grip rail 5, two elastic elements 6, 7 mounted on opposite sides of the passive grip 3 and associated with it, and associated with the rail loading mechanism, comprising a lever 8 with a load of 9.

 In the rail 5, a longitudinal slot 10 is made. The connection of the rail 5 to the base 1 is made by means of a hinge 11, in which the rail is mounted for axial movement, and a latch 12 for connecting the rail to the hinge. The installation is equipped with an eccentric 13 mounted on the axis of the lever and placed in the slot of the rack, and the latch 14 of the eccentric relative to the rack.

 The elastic elements 6. 7 are connected to the grip 3 through rods 15 and blocks 16.

 Installation works as follows.

 The lever 8 is displaced from the equilibrium position, and it oscillates under the action of the load 9. For testing when loading the specimen 4 with axial and bending forces, the clamp 14 is turned on and the eccentric 13 is connected to the rail 5. In this case, the rail 5 makes rotations and axial movements, and the gripper 3 and the springs 6, 7 load the sample 4 with cyclic axial and bending forces along the damping amp load load.

 To change the load levels in the extreme axial position, the rails 5 turn on the latch 12, turn off the latch 14. Turning the eccentric 13 during continued vibrations of the lever 8 will move the eccentric and latch 14 along the slot 10. After the eccentric is displaced along the slot 10, the latches are switched, t. e. the latch 14 is turned on, and the latch 12 is turned off.

 The reverse rotation of the lever 8 will lead to axial additional movement of the staff in the selected direction, the staff will take a new position and will make movements and turns in this position. This will lead to the displacement of the gripper 3 relative to the blocks 16 and the change in the axial load, and due to a change in the angle of rotation of the rack, and to a change in the bending load. In this case, if the rail moves in the direction of capture 3, then the axial load becomes compressive, with reverse movements of the rail, the axial load becomes tensile. Operations for moving the rack by switching the latches during the oscillation of the lever can be carried out repeatedly and thereby change the load over a wide range.

 The installation allows testing in new modes - when changing levels and sign of axial load during loading.

Claims (1)

 INSTALLATION FOR DEFORMING A MATERIAL SAMPLE WHEN TESTING ITS DAMPING PROPERTIES, containing a base, active and passive grips of a sample mounted on it, connected to the base and with an active gripping rail, two elastic elements mounted on both sides of the passive grip and connected with it, and connected with a rail a loading mechanism, including a lever with a load, characterized in that, in order to expand functionality by providing tests not only in constant mode, but also when adjusting equal to the load and the axial load sign during the tests, a longitudinal slot is made in the rail, the rail is connected to the base by a hinge in which the rail is mounted with axial movement, and a latch for connecting the rail to the hinge, and the installation is equipped with an eccentric mounted on the lever axis and placed in the slots of the slats, and an eccentric lock relative to the slats.