RU2400730C1 - Test bench for material samples - Google Patents

Abstract

FIELD: machine building. ^ SUBSTANCE: test bench consists of case, of mounted there active and passive sample grippers, of lever with support interacting with active gripper, of control rod with its one end connected to lever, of spring secured on another end of control rod and of load connected to spring. The test bench is equipped with a vertically installed pusher and with a mechanism of reciprocal axial motion of the pusher; also the passive gripper and the support of the lever are positioned on the pusher. ^ EFFECT: facilitating tests at change of loads from continuous to mechanical cyclic loads and to mutually effecting mechanical and inertia loads at varying parametres of cycles during rests. ^ 1 dwg

Description

The invention relates to testing equipment, to strength tests.

A well-known stand for testing samples of materials (RF patent No. 1587410, class G01N 3/32, 1990), comprising a housing, active and passive grips of a sample mounted on it, a lever with a support, mounted to interact with the active gripper, traction, one end connected to the lever, a spring attached to the other end of the rod, and a load connected to the spring.

The disadvantage of the stand is the lack of the ability to test samples during transitions from constant to mechanical cyclic loads and to jointly acting mechanical and inertial loads with the possibility of changing the parameters of the cycles during the tests.

A well-known stand for testing samples of materials (RF patent No. 1672285, class G01N 3/34, 1991), comprising a housing, active and passive grips of a sample mounted on it, a lever with a support, mounted to interact with the active gripper, traction, one end connected to the lever, a spring attached to the other end of the rod, and a load connected to the spring.

The disadvantage of the stand also lies in the lack of the ability to test samples during transitions from constant to mechanical cyclic loads and to jointly acting mechanical and inertial loads with the possibility of changing the parameters of the cycles during the tests.

The technical result of the invention is to increase the amount of information by conducting tests during transitions from mechanical cyclic loads to jointly acting mechanical and inertial loads with the possibility of changing the parameters of the cycles during the tests.

The technical result is achieved by the fact that the stand for testing samples of materials, comprising a housing, active and passive grippers mounted on it, a lever with a support, mounted to interact with the active gripper, a rod connected to the lever by one end, a spring mounted on the other end traction, and the load connected to the spring, according to the invention, it has a vertically mounted pusher and a mechanism for reciprocating axial movement of the pusher, while the passive grip and support lever arm ovleny to the pusher.

The drawing shows a diagram of the stand.

The test bench for samples of materials contains a housing 1, active 2 and passive 3 grips of sample 4 mounted on it, a lever 5 with a support 6, mounted to interact with the active gripper 2, a rod 7, connected at one end to a lever 5, a spring 8, fixed at the other end of the rod 7, and the load 9 connected to the spring 8.

The stand has a vertically mounted pusher 10 and a mechanism 11 for reciprocating axial movement of the pusher. Passive capture 3 and the support 6 of the lever mounted on the pusher 10.

The mechanism 11 may be performed, for example, cam.

The stand works as follows.

When the mechanism 11 is turned off, sample 4 is subjected to a constant long-term load. To initiate cyclic loads, the mechanism 11 is turned on and the pusher 10 is moved back and forth, which means that the load 9 through the spring 8, the rod 7, the lever 5 and the active gripper 3 loads the sample with a cyclic mechanical load. Simultaneous cyclic movements of the sample excite inertial loads in it. When the mechanism 11 is turned off, the sample is loaded with mechanical cyclic damping loads due to oscillations of the load 9 on the spring 8. Resumption of loading by mechanical and inertial loads can occur after complete damping of the oscillations or in the process of damping. By changing the frequency of rotation of the cam at a known constant frequency of the natural oscillations of the spring and the load, the parameters of the cycles are changed from resonant excitation to damping the oscillations.

The stand allows you to conduct research in new conditions - during transitions from constant to mechanical cyclic loads and to jointly acting mechanical and inertial loads with the possibility of changing the parameters of the cycles during the tests. This increases the amount of information in the study of the properties of materials, especially rocks, as applied to a combine ditch.

Claims (1)

A test bench for material samples, comprising a housing, active and passive sample grips installed on it, a lever with a support mounted to interact with the active gripper, a rod connected to the lever by one end, a spring fixed to the other end of the rod, and a load connected with a spring, characterized in that it has a vertically mounted pusher and a mechanism for reciprocating axial movement of the pusher, while the passive grip and the support of the lever are mounted on the pusher.