SU811097A1 - Stand for mechanical testing of elastic materials - Google Patents

Description

The invention relates to testing Stands and can be used in all areas of the industry where it is required to conduct testing of elastic materials for bending, non-elastic, stretching, compression and torsion in various climatic conditions.

A device for testing electric cables for bending, containing gearing gears, one of which is fixed in the housing stationary, and the other mounted on the lever and is designed to roll the cable from roller to roller with the possibility of rolling on a non-moving roller and a clip for attaching the end test cable 1.

A disadvantage of the known device is that it is suitable only for bending tests of one product in one set.

The closest to the technical essence of the invention is a stand for mechanical testing of elastic materials, containing a base, a drive placed on it with an angular displacement controller, and a panel with holes forming a coordinate grid, and a fixture of the position of the panels, made in the form of two parallel walls, one of which has

A limb with fixing units, panels placed between the fixation walls on the articulating axes connecting them, one of which is fixed, part of the panels is kinematically connected with the drive, and the rest is fixed relative to the first 2.

The disadvantages of the known stand are the small range of bending and torsion angles and the impossibility of using the stand for testing in different climatic conditions.

The aim of the invention is to expand the functionality.

The goal is achieved by the fact that the panel is fixed, but it is made of two parts, between which another panel is fixed and movable and on the hinge axis, and the regulator

The angular displacements are made in the form of a limb with two end switches and a carrier interacting with them, the axis of which is connected to the drive, and the plug contacts the panel.

FIG. 1 shows a general view of the stand; in fig. 2 - the initial position of the working panels at the test angles from 90 to 270 °; in fig. 3 - the same, with the angles of testing from 15 to 345 °; in fig. 4-8 - and the position of the product, respectively, when testing

bending, bending, stretching, compression, torsion.

The stand contains a base 1, a drive 2 placed on it with a regulator of 3 angular displacements, lanes 4-7 with holes forming a coordinate grid, and a clamp 8 and position of the panels, made in the form of two parallel walls 9 and 10, one of which has a limb 11 with fixing knots 12 to 13. The panels 4-7 are arranged by the walls 9 and 10 of the retainer on the articulating axes 14, 15 and 16 connecting them. One of the panels (4) is made of two parts and is fixed in place between the parts of the panel 4 and is mounted on the hinge axis 15 is fixed second panel 7.

The half-length of the panels 5 and 6 is fixed by the fixing units 12 and 13.

The angular displacement regulator 3 is made in the form of a limb 17 with two limit switches 18 and 19 and a carrier 20 interacting with them, the axis of which is connected to the drive, and the plug 22 in contact with the panel 7 is fixed by means of the coupling 21 on the same axis.

The stand works as follows.

Product 23 is mounted on panels (Figs. 4-8). From the actuator 2, through the coupling 21, the force is transmitted to the plug 22, which oscillates the panel 7, loading the test article 23.

At test angles of up to 180 ° (Figs. 2, 4), panels 5 and 6 are set to a predetermined angle and fixed using fixing units 12 and 13, and panel 7 is installed parallel to folder 5 at a distance varying depending on the geometry of the product being tested. by vertically fixed movement of the panel 7. The oscillation angle of the panel 7 is limited by limit switches 18 and 19 when exposed to the carrier 20.

The test at an angle of more than 180 ° is similar (Figs. 3, 5), with the panels 5, 6 falling vertically downwards, and the panel 7 is pushed vertically upward and rigidly fastened with screws (not shown).

The principle of testing for ebb, stretch and torsion is clear from the diagrams shown in FIG. 6, 7, 8.

For testing, when the product is exposed to different climatic conditions, the panels can be placed in a thermoelectric chamber, and the panels with the actuator 2 are connected through the mounting hole in the chamber by means of the coupling 21.

The use of the invention will expand the range of angular tests (from 15 to 345 °) and thereby improve the quality of the tests. An increase in test performance is achieved by installing test products and several panels simultaneously.

Claims (2)

1. USSR author's certificate number 146583, cl. G 01M 19/00, 1964. 2. USSR author's certificate number 627374, cl. G 01M 19/00, 1977 (prototype). i3 7 2118 320 13 FIG. / what270 23 6 -V