RU2678595C2 - Device for testing the material for cantilevered bending, torque, stretching, compression and complex resistance at a constant and at a variable load - Google Patents

Abstract

FIELD: test equipment.SUBSTANCE: invention relates to the testing equipment, namely to the devices for testing a sample of material for the cantilevered bending, torsion, tension, compression, as well as complex resistance, and can be applied in the training laboratory. Device contains the base, the passive grip, which is fixed to it with the test sample, the shaft with the active grip of the sample, the pulley with the load and pull rod, the pulley is fixed to the shaft with the key, and the lever with the two attached rods. Shaft is fitted with the radial single-row ball bearing, which is encircled by a ring, the loads, which are attached to the ring, the second load, which is attached to the pulley, the circle, which is attached to the shaft with the cutout along the diameter as the integrated whole with the shaft and the load, which is attached to the circle. Lever has two longitudinal slits and both pulley rods, which are attached to its one end from different sides, the rod with two nuts, which connects the circle with the lever, the bolt, which connects the rod with the nut, and the screws, which connect this nut to the lever. Five loads are attached through the pulley rods and units. Drive, the cam shaft with four cams and four pushers are installed there.EFFECT: technical result is as follows: the wider range of strength studies of the sample material, namely the testing of the sample of the material not only at a constant load, but also at a variable one.1 cl, 1 dwg

Description

The invention relates to testing equipment, and in particular to devices for testing a sample of material for cantilever bending, torsion, tension, compression, as well as for complex resistance at constant and variable load and can be applied in a training laboratory.

A known installation for testing samples of materials under complex stress conditions (certificate for utility model, No. 1538, MKL. 6G01N 3/08, 1996, bull. No. 1), containing a base, a passive grip attached to it with the test sample, mounted on it, a shaft with active capture of the sample, a pulley with a load and a rod and a lever with two rods attached, attached to the shaft with the help of a dowel.

The closest in technical essence is a device for testing samples of materials for cantilever bending, torsion, tension, compression and complex resistance (patent No. 2566433, IPC G01N 3/08, 10.27.2015, 2015), containing a base mounted on it with a passive grip with with a test specimen, a shaft with an active grip on the sample, a pulley with a load and a rod and a lever with two rods attached to the shaft with a key, a single-row radial ball bearing wrapped around the ring mounted on the shaft, weights attached to the ring, second the load attached to the pulley, the circle attached to the shaft with a cut along the diameter as a whole with the shaft and the load attached to the circle, and the lever has two longitudinal slots and both rods attached to its one end from different sides, a rod with two nuts connecting a circle with a lever, a bolt connecting the rod to the nut, and screws connecting the nut to the lever.

The disadvantage of this installation and this device is that they do not provide testing of a sample of material at a variable load.

The objective of the invention is the expansion of functionality by testing a sample of material not only at a constant load, but also at a variable.

To solve this problem, in a device for testing a material sample for cantilever bending, torsion, tension, compression and complex resistance at constant and variable load containing a base, a passive grip attached to it with the test sample mounted on it, a shaft with an active sample grip fixed on the shaft with dowels pulley with load and rod and lever with two rods attached, shaft mounted single-row radial ball bearings wrapped around the ring, weights attached to the ring, second load attached to a kivu, a circle attached to the shaft with a cut along the diameter as a whole with the shaft and a load attached to the circle, and the lever has two longitudinal slots and both rods attached to its one end from different sides, a rod with two nuts connecting the circle with the lever, the bolt connecting the rod to the nut, and the screws connecting the nut to the lever, an additional drive is introduced, a cam shaft with four cams and four pushers. Effect: a wider range of studies of the strength of a sample of material, namely testing a sample of material not only at constant load, but at a variable.

The invention is illustrated by drawings, which depict:

in FIG. 1 is a diagram of a device;

in FIG. 2 - view A — loading of the sample in tension, compression, and complex resistance;

in FIG. 3 - section BB - torsion loading of the sample.

A device for testing a material sample for cantilever bending, torsion, tension, compression and complex resistance at constant and variable load contains: base 1, on which a passive grip 2 of sample 3 is attached. Active grip 4 is fixed on one end of shaft 5. This shaft is mounted single row radial ball bearing 6, wrapped around ring 7. A removable load 8 and a second replaceable load 9 are attached to this ring, which is connected through a block 10 by a flexible rod 11 with a ring 7. On the shaft 5, a pulley 13 from the can is also connected using a key 12 wkami on the rim. Flexible rods 14 and 15 are connected at one end with a pulley 13, and the other with removable weights 16 and 17 located at the same distance from the vertical axis (Fig. 3), while the rod 15 covers the block 18 and slides along the lower block. At the other end of the shaft 5 there is a circle 19 (Fig. 1) with a notch 20 along the diameter as a unit with the shaft. Interchangeable loads 23 are connected to circle 19 through block 21 by flexible rod 22. In the cutout 20 there is a segment head 24 of rod 25. On this rod there is a thread for translational movement of nuts 26 and 27. In addition, a bolt 28 passes through the hole in the rod, which is screwed into nut 29. This nut is attached to the lever 30 by four screws 31. The lever 30 has slots 32 through which the rod 25 can move. The lever 30 is connected via rods 33 and 34 and blocks 35 and 36, respectively, removable loads 37 and 38.

The device also includes a drive 39, a cam shaft 40 with four cams 41, 42, 43 and 44 and, respectively, with four pushers 45, 46, 47 and 48.

The device operates as follows

The shaft 5 is installed in a horizontal position. To this end, only the bearing 6 with the ring 7 without load 8 and the pulley 13 without loads 16 and 17 are left on the shaft 5. By selecting the weights 9 and 23, the shaft 5 is installed in a horizontal position. Then the loads 37 and 38 are removed.

To test sample 3, install it in passive capture 2 and active 4. Adjusting weights 8 and including drive 39, create cantilever loading of sample 3 in bending under variable load.

When changing loads, the actuator 39 is switched.

Removing weights 8 and adjusting weights 16 and 17, through rods 14 and 15 and pulley 13 subject sample 3 to torsion.

To test sample 3 for tension and compression, weights 16 and 17 are removed. In a free state, nuts 26 and 27 are screwed onto the rod 25. Then, a bolt 28 is passed through this rod and a nut 29 is screwed on it. After that, the rod 25 is passed through the slots 32 and 20 to the position shown in the drawing, and lock the nut 29 with screws 31 to the upper part of the lever 30. Nuts 26 and 27 firmly connect the shaft 25 to the lever 30.

Then weights 37 are installed, which through the rod 33, the lever 30, the head 24 of the rod 25, the shaft 5 and the active grip 4, cause the stretching of the sample 3.

After that, the loads 37 are removed and the weights 38 are adjusted, which through the rod 34, the lever 30, the head 24 of the rod 25, the shaft 5 and the active gripper 4 cause compression of the sample 3. After the experiment, the loads 38 are removed.

For eccentric loading of the sample 3, the nuts 26 and 27 are loosened and, turning the bolt 28 in one direction or another, raise or lower the rod 25 up or down (according to the drawing) by a certain amount. Then fix the position of the rod 25 with nuts 26 and 27 with respect to the lever 30.

After that, weights 37 are installed, which sequentially, as with the stretching of sample 3, cause eccentric stretching of the sample 3.

Weights 37 are removed and weights 38 are adjusted, which sequentially, as with compression of sample 3, cause eccentric compression of sample 3. Then, loads 38 are removed.

When the drive 39 is not working, the test of sample 3 is carried out at a constant load.

All the considered types of loading of sample 3 were carried out with a zero stress cycle.

When adjusting weights 37 and 38, which are equal in magnitude, simultaneously, sample 3 is loaded with a symmetrical stress cycle, and with different magnitudes of loads, sample 3 is loaded with an asymmetric stress cycle.

Adjusting weights 8, 16 and 17, 37, 38 in various combinations and placing the rod 25, as shown in the drawing, as well as moving this rod 25 up or down (according to the drawing) perpendicular to the longitudinal axis of the lever 30, the following types of complex resistance of sample 3 are obtained : bending with torsion; tensile bending; bending with compression; eccentric bending; bending with eccentric compression; bending with torsion and tension; bending with torsion and compression; bending with torsion and eccentric tension; bending with torsion and eccentric compression; tensile torsion; torsion with compression; eccentric torsion; eccentric torsion. The listed types of loading of sample 3 are carried out both with variable and constant load.

Claims (1)

A device for testing a material sample for cantilever bending, torsion, tension, compression and complex resistance at constant and variable load, containing a base, a passive grip attached to it with a test sample, a shaft with an active sample grip, mounted on the shaft using a key pulley with a load and a rod and a lever with two rods attached, mounted on a shaft, a single row radial ball bearing wrapped around the ring, weights attached to the ring, a second load attached to the pulley attached to the shaft a circle with a cut along the diameter as a unit with the shaft and a load attached to the circle, and the lever has two longitudinal slots and both rods attached to its one end from different sides, a rod with two nuts connecting the circle with the lever, a bolt connecting the rod with a nut, screws connecting this nut to a lever, and five weights are attached through rods and blocks, characterized in that the drive is introduced, a cam shaft with four cams and four pushers.

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