RU2413197C1 - Installation for physical-mechanical analysis of samples of materials - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: installation for physical-mechanical analysis of samples of materials consists of bed plate, of sample grippers and loading mechanism mounted on bed plate, also, loading mechanism is made as gear interacting with axially travelling rack bar connected with one of the grippers. Further, the installation consists of a rod with its end tied with the gear, of a lever, of a load secured on one end of the lever, of a joint on another end of the lever for connection with the rod and a holder of lever turn relative to the rod. Also, the installation has the second gear mounted on the second end of the rod, the holder of turn of the second gear on the rod and a tooth sector secured on the bed plate and engaging the second gear; the joint is set eccentrically on the second gear, while the tooth sector is removable.

EFFECT: increased scope of information by analysis with changed asymmetry of cycles during tests to two-cycle and three-cycle symmetrical cycles.

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Description

The invention relates to testing equipment, to strength tests.

A known installation for physico-mechanical studies of samples of materials (RF patent No. 1585723, class G01N 3/32, 1990) containing a frame, sample grips mounted on it and a loading mechanism made in the form of a rod and a load fixed on the other end of the rod.

The disadvantage of the installation is the lack of the possibility of research with a change in the asymmetry of the cycles during the tests during the transition to two-cycle and three-cycle symmetric cycles.

A known installation for physico-mechanical studies of samples of materials (RF patent No. 1672279, class G01N 3/32, 1990) containing a frame, sample grips mounted on it and a loading mechanism made in the form of a gear wheel interacting with a gear rack installed with the possibility of axial movement and associated with one of the grips, the rod, the end connected to the gear, and the load, mounted on the other end of the rod.

The disadvantage of the installation also lies in the lack of the possibility of research with a change in the asymmetry of the cycles during the tests during the transition to two-cycle and three-cycle symmetric cycles.

The technical result of the invention is to increase the amount of information by providing research with a change in the asymmetry of the cycles during the tests during the transition to two-cycle and three-cycle symmetric cycles.

The technical result is achieved by the fact that the installation for physicomechanical research of material samples containing a bed, sample grips installed on it and a loading mechanism made in the form of a gear wheel, a gear rack interacting with it, mounted with the possibility of axial movement and associated with one of the grippers , a rod end-face connected to a gear wheel, a lever, a load mounted on one end of the lever, a hinge mounted on the second end of the lever for connection with the rod, and a pivot lock from the lever relative to the rod, according to the invention, it has a second gear wheel mounted on the second end of the rod, a rotation lock of the second wheel on the rod and a gear sector mounted on the frame and engaged with the second wheel, the hinge mounted eccentrically on the second wheel, and the gear sector is removable.

The drawing shows the installation diagram.

An apparatus for physicomechanical research of material samples contains a frame 1, grips 2, 3 of sample 4 installed on it, and a loading mechanism made in the form of a gear 5, a gear rack 6 interacting with it, mounted with axial movement and associated with one of the grippers 2, the rod 7, the end connected to the gear 5, the lever 8, the load 9 mounted on one end of the lever, the hinge 10 mounted on the second end of the lever 8 for connection with the rod 7, and the latch 11 of the rotation of the lever 8 relative to pc ngi 7.

The installation has a second gear wheel 12 mounted on the second end of the rod 7, the latch 13 of the rotation of the second wheel on the rod and the gear sector 14, mounted on the frame 1 and engaged with the second wheel 12. The hinge 10 is mounted eccentrically on the second wheel 12. The gear sector 14 is removable.

When testing rigid samples of materials between the gripper 2 and the rod 6, a spring 15 is installed. The rod 7 is removed from the equilibrium position by the winch 16, and the lever 8 is removed by the winch 17.

Installation works as follows.

To test sample 4 with two-cycle loading with the latches 11, 13 turned off, the rod 7 is brought out of equilibrium with the winch 16. Under the action of the load 9, the rod 7 makes oscillatory movements, the wheel 12 as a result of interaction with the sector 14 makes rotational movements, the lever 8 is loaded 9 cyclically move in a vertical plane and together with the wheel 12. When lifting the load and the lever, the rotation of the wheel 12 slows down, when lowering the load and the lever, the rotation speed of the wheel 12 increases and, accordingly, The rotation speed of the rod 7, the wheel 5, the axial movements of the rack 6, the degree of deformation of the spring 15 and the load on the sample 4 are changed. These movements of the load in the vertical direction create a second loading cycle, which is superimposed on the first loading cycle created by the angular rotation of the rod 7. For tests at three-cycle loading simultaneously with the removal of the rod 7 from the equilibrium position, the lever 8 is removed from the equilibrium position using the winch 17. With free oscillations of the system, in addition to the described two-cycle a third cycle is created for the loads due to the oscillations of the load 7 with the lever 8 on the hinge 10. For tests with single-cycle loading, the removable sector 14 is removed and the clamps 13 and 10 are turned on. If the rod 7 and the lever 8 in the initial position are aligned with each other, then the tests are carried out at symmetrical single cycle cycles. For tests with asymmetric cycles, briefly turn off the latch 10 at one of the top dead center. At this moment, the lever 8 with the load 9 continues the inertia rotation relative to the rod 7, the angle between the rod and the lever changes, and the new position of the lever and the rod is fixed by the latch 11. The oscillations of the rod-lever-load system become asymmetrical, which creates asymmetric loading cycles. Exceeding the tensile or compressive load is determined by the choice of switching the latch 11 when the system is rotated in one direction or another.

The installation for single-cycle loading of the sample with a change in the asymmetry of the cycles during the tests provides for research under new conditions - in the transition to two-cycle and three-cycle symmetric cycles. This increases the information content of research.

Claims (1)

Installation for physicomechanical research of material samples containing a bed, sample grips installed on it and a loading mechanism made in the form of a gear wheel, a gear rack interacting with it, mounted with the possibility of axial movement and connected with one of the grippers, a rod end connected to a gear, a lever, a load mounted on one end of the lever, a hinge mounted on the second end of the lever for connection with the rod, and a lever for turning the lever relative to the rod, distinguishing I mean that it has a second gear wheel mounted on the second end of the rod, a rotation lock of the second wheel on the rod and a gear sector mounted on the frame and engaged with the second wheel, while the hinge is mounted eccentrically on the second wheel, and the gear sector is made removable.