SU1350537A2 - Material testing installation - Google Patents

Abstract

This invention relates to a testing technique. The aim of the invention is to extend the functionality of the installation. The installation contains crossheads 1 and 2 in the form of crosses with fasteners 3 and 4 fixed to them for sample 5. The ends of the crosses are interconnected by columns 6. Columns are mounted on crossbar 1 for rotation, load sensors 9 are installed on the lower ends of 7 columns. On the arms of the yoke 1, there are racks 10 with movable collars I1 with ball bearings 12 and movement drives of the yokes 11. On the racks 10 there is an additional yoke in the form of a crosspiece 13, the shoulders of which are placed in the ball bearings 12. In the center of the cross there is a gripper 18. in grippers 3 and 4 and bending and axial loads are applied by moving the crosspiece 2 during the rotation of the columns 6. To create additional axial compression and to assemble (L 00 sd SP 00 14) p.

Description

The bend of the sample 5 is moved and the crosspiece 13 is moved and the grip 18 is fixed in the closed section of the sample 5. During the rotation of the jacks 14, the force from them is transmitted to the sample 5, which is measured by sensors 9 and dynamometers

one

The invention relates to a test apparatus, in particular to installations for testing materials, and is an improvement of the device according to the author. St. No. 1020772.

The purpose of the invention is to expand the functionality by providing additional axial loading of the sample and creating a concentrated bending moment on a given part of its length.

Figure 1 shows the scheme of the proposed installation; figure 2 - section aa in figure 1.

The installation contains a fixed 1 and a movable 2 crosshead, each of which is made in the form of a cross with a passive 3 fixed on one of them and 4 active grips designed to fasten the test sample 5, the ends of the crosses are interconnected by means of columns 6, each of which connected to the crossbars 1 and 2 by means of bushings 7 and 8, which are concentrically mounted on the ends of the columns, spanning columns 6, and mutually perpendicular axes (not shown), with which the sleeves 7 and 8 are connected to each other; not the movable traverse 1 is rotatably connected, and the traverse 2 is mounted for movement along the columns 6, on the upper part of which a thread is made. At the lower ends of the columns 6, load sensors 9 are installed in each of the inner bushings 7. On the arms of the yoke 1 are fixed racks 10, on each of which are mounted movable clips 11 with ball bearings placed in them. On the racks 10 an additional yoke is installed, made in the form of a crosspiece 13, the shoulders of which are placed 17, the ball bearings 12 exclude the occurrence of horizontal forces and twisting at the place of attachment of the gripper 18 to samples 5, and the springs 16 exclude the mutual influence of loads from each pair of jacks 1A, 2, or 2.

in the ball joints 12, at the free ends of the uprights 10, the screw drives of the displacers are mounted (-aim 1 1, each of which is made in the form of a corresponding jack 14, kinematically connected through the slider 15, the spring 16 and the dynamometer I7 with the yoke 11 .

In the center of the crosspiece 13, a gripper 18 is fixed, designed to interact with sample 5,

The cross members 1 and 2 are connected to the frame 20 by means of hinges 19 and 1 of the front connection (not shown).

5 set works as follows

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Sample 5 is fixed in grips 3 and 4 cross-arms and 2. Bending and axial compression of sample 5 is carried out by moving cross-beam 2 along columns 6 while rotating the latter. To create additional axial compression and concentrated bending of the sample 5 at a predetermined length, rotating the jacks 14 move the sleeves 11 with the crosspiece 13 and fix the gripper 18 in a predetermined section of the sample 5. In this case, the forces from the i4 jacks through the supports 12 are transmitted to the yoke 13 and through the grip 18 to the sample 5. The presence of the ball bearings 12 ensures the movement of the crosspiece 13 behind the sample 5

during loading; which eliminates the occurrence of horizontal forces and torque in sample 5 at the point of attachment of grip 18. At the same time, springs 16 eliminate the mutual influence of loads created by each pair of jacks 14. The forces applied to sample 5 are measured using sensors 9 and dynamometers 17 Moving the cross 13 along the racks i About measurement

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here the place of application of additional axial load and bending moment within the middle part of the sample 5.,:

Claims (1)

Invention Formula Installation for testing materials according to ed. No. 1020772, characterized in that, in order to extend the functionality by providing additional axial loading of the sample and creating a concentrated bending moment on a given part of its length it is equipped with racks mounted on the respective racks on each shoulder of the supporting traverse, mounted on the corresponding racks movable holders with their movement drives, interacting with the holders by means of spring-loaded sliders with dynamometers, ball-bearings supported by an additional movable traverse made in the form of crosses, the shoulders of which are installed in the ball bearings of the clips, and the seizure of the sample, placed in the center of the additional movable traverse. Editor L.Gratillo Compiled by M.Matyushin Tehred I. Khodanich Proofreader A.Obruchar Order 5276/42 Circulation 776 Subscription VNIIPI USSR State Committee for inventions and discoveries 1.13035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 (pus.Z