RU2047165C1 - Set for testing materials for friction - Google Patents

Abstract

FIELD: testing materials for friction. SUBSTANCE: test set has grips 2 and 4 for specimens 3 and 5, mechanism 6 for moving the grips and springs 9 and 12. Intensity of pressing is changed due to use of different springs 9 and 12. Test set may be used for testing the specimens of various materials and articles. EFFECT: possibility of conducting the tests at adjustment of intensity of pressing the specimens at their relative displacement. 1 dwg

Description

 The invention relates to a testing technique.

 A known installation for testing materials for friction, containing a base, sample grips and a counter-sample gripper installed on it, a mechanism for mutual movement of the grippers, a guide for moving the sample gripper in the direction of mutual compression of the samples, a clamp for gripping the sample on the guide and a power spring connecting the sample gripper to the guide .

 The disadvantage of the installation is that it is not feasible to test when regulating the intensity of the change in the force of compression of the samples as they move.

 The objective of the invention is the expansion of functionality by providing testing when regulating the intensity of the change in the force of compression of the samples as they are mutually displaced.

 The objective is achieved by the fact that the installation is equipped with a hinge on which the capture of the counter-sample on the base is fixed at one end, a latch for the rotation of the capture of the counter-sample in the hinge and a power spring connecting the capture of the counter-sample to the base.

 With this design of the installation, the force of mutual compression of the samples is created due to the inclined arrangement of the capture of the counter sample to the direction of the mutual displacement of the grippers, while if the capture of the counter sample is fixed from rotation in the hinge, and the capture of the sample is fixed on the guide, the mutual movement of the grippers is accompanied by an increase in the force of compression due to the deformation of the spring at the capture of the sample. If the capture of the counter-sample is unlocked, and the capture of the sample is fixed, then the mutual displacement occurs with a decrease in the preload force due to an increase in the length of the lever at the time of deformation of the spring associated with the capture of the sample. This achieves the assigned task.

 The drawing shows the installation diagram.

 The installation contains a base 1, a gripper 2 mounted on it 3, a gripper 4 counterblock 5 mounted on it, a mechanism 6 for mutual movement of the grippers, a guide 7 for moving the gripper 2 samples in the direction of mutual compression of the samples, the clamp 8 for gripping 2 samples on the guide 7 and the power spring 9, connecting capture 2 with the guide 7. The capture 4 of the counter-sample is fixed on the base 1 pivotally at one end. The installation is equipped with a latch 11 rotation. The other end of the counter-sample capture is fixed to the base by means of a power spring 12. The latch 11 is made in the form of an anchor with two coils 13, 14 and the pusher 15. The mutual movement mechanism is made in the form of a drive 6, an endless element 16, a guide 17, a latch 18 of the guide 7 on the element 16 and power spring 19.

 Installation works as follows.

 The actuator 6 is turned on and the infinite flexible element 16 is driven. For testing, with an increase in the force of pressing the sample 3 to the surface of the counter sample 5, the coil 13 is turned on, so that the armature 11 occupies the position shown in the drawing, and the pusher 15 fixes the capture position 4 of the counter sample. The latch 8 is turned off and the latch 18 is turned on. The element 16 moves the guide 7 together with the grip 2 of the sample and deforms the spring 19. With a given deformation of the spring 19, the latch 18 is turned off, the spring 19 moves the grip 2 in the direction of the grip 4. The samples are contacted and move relative to each other, in this case, due to the inclined position of the gripper 4, the gripper 2 is displaced in the guide 7 and the deformation of the spring 9. As a result of the growth of the deformation of the spring 9, the force of mutual compression of the samples increases. At the end of the mutual movement, turn on the coil 14, move the armature 11 and the pusher 15 with the rotation of the grip 4 on the hinge 10. Turn on the latch 18 and again move the grip 2 for re-interaction of the samples. For tests with a new intensity of change in the preload force of the samples, the lock 8 is turned on and the coils 13 and 14 are turned off. When the samples interact, as described above, as the gripper 2 moves with the sample 3 along the gripper 4 with the counter-sample 5, the angle of the gripper 4 changes, spring 12 is formed With the mutual displacement of the samples, the shoulder of the force that deforms the spring 12 changes, and therefore the intensity of the increase in the preload force follows a different path than with the deformation of the spring 9. This gives a new intensity from changes in the force of compression of the samples as they move.

Claims (1)

 Friction material testing apparatus, comprising a base fixed to the grips of the sample and the counter-sample, a mechanism for mutual movement of grippers, a guide for moving the gripper of the sample, a clamp for gripping the sample with a guide and a power spring for connecting the gripper to the guide, characterized in that the grip of the counter-sample fixed on the base pivotally at one end and by means of a power spring at the other end, and the installation is equipped with a latch for turning the counter-sample capture in the hinge.