RU2047162C1 - Device for testing material for friction - Google Patents

Abstract

FIELD: testing technology. SUBSTANCE: device has pendulum 3 with reciprocating mechanism 12, grips 4 and 6 for specimens 5 and 7 and weights 8 and 11. When pendulum is turned by mechanism 12, grip 6 with specimen 7 freely moves along specimen 5. Device is used for testing the specimens of various materials and articles. EFFECT: possibility of conducting the tests at repeated return free motion of specimens. 1 dwg

Description

 The invention relates to test equipment, friction tests.

 A device for testing materials for friction, closer to the proposed design and the achieved effect. The device comprises a base mounted on it on the axis of the pendulum, a counter-sample gripper, a sample gripper, a sample and counter-loading specimen loading unit and a gripper reciprocal movement mechanism including a block mounted on the pendulum axis, a flexible rod, an envelope connected at one end to the sample gripper a block and a second end connected to the tensioner.

 The disadvantage of this device is that tests on it are carried out only with a single movement of the sample along the counter sample. Tests with multiple movements of samples with free sliding on the device are not feasible. Mutual movement of samples is carried out in only one direction.

 The objective is to expand operational capabilities by providing tests with multiple reciprocal reciprocal movements of samples.

 The task is achieved in that the installation is equipped with a mechanism of reciprocating rotational movements associated with the axis of the pendulum, and the loading unit and the tensioning device are made in the form of weights.

 With this design of the device, the new mechanism gives multiple rotations of the pendulum, and the use of weights for loading the samples and for pulling the traction ensures free sliding of the samples relative to each other: the samples begin to move mutually at certain angles of inclination of the pendulum and the dynamics of their sliding does not depend on the mechanism of reciprocating rotational movements , and is determined by the conditions at the contact of the rubbing surfaces of the samples.

 The drawing shows the installation diagram.

 The device comprises a base 1, a pendulum 3 mounted on it on an axis 2, a counterpart 5 grip 4 on the pendulum rod 3, sample 7 grip 6, sample loading unit 7 and counterbrace 5, and a gripper reciprocal movement mechanism including a block 9 mounted on the axis 2 of the pendulum 3, a flexible rod 10, one end connected to the capture 6 of the sample, the envelope of the block 9 and the second end connected to the tensioner 11.

 The installation is equipped with a mechanism 12 for reciprocating rotational movements associated with the axis 2 of the pendulum 3, and the loading unit 8 and the tensioning device 11 are made in the form of weights.

 The mechanism of reciprocating rotational movements is made in the form of an engine 12, an eccentric 13 with a frame 14 and a rack 15 connected to an axis 2 made in the form of a gear wheel.

 The device operates as follows.

 The engine 12 is turned on and through the eccentric 13, the frame 14, the rack 15 and the axis 2, the pendulum 3 rotates. When the pendulum 3 is rotated smoothly clockwise (according to the drawing), there comes a moment when the friction between samples 5 and 7 decreases so much that the load 11 drives the sample 7 along the surface of the sample 5. Using standard displacement sensors (not shown), the dynamics of the process of the displacement of the sample 7 on the surface of the sample 5 is recorded. When the pendulum 3 is rotated back, the moment comes when the weight of the load 8 is sufficient to move of the samples 7 in the reverse direction. The dynamics of movement of the sample is recorded 7. The next time the sample 7 is moved, its movement begins at a different angle of rotation of the pendulum 3, since the previous movement changes the conditions at the contact of the rubbing surfaces of the samples. This also affects the dynamics of the movement process.

 Thus, under the same power conditions specified by the weight of the loading unit 8 and the tensioning device 11, we study the effect of repeated movements on the contact conditions on the rubbing surfaces and on the dynamics of the process of mutual movement.

Claims (1)

 A device for testing friction materials, containing a base, an axis mounted on the base, a pendulum mounted on a pendulum axis, a counter-sample gripper, a sample gripper, a sample and counter-sample loading assembly, and a gripper reciprocal movement mechanism, including one end mounted on the pendulum axis a flexible rod connected to the sample capture enveloping the block, the second end of which is connected to a tensioner, characterized in that it is provided with a reciprocating mechanism connected with the axis of the pendulum movement, and the loading unit and the tensioning device are made in the form of goods.