RU2512077C2 - Plant to test tubular sample for strength - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to test equipment, to strength tests. The plant comprises a base, sample grips installed on it and a loading mechanism, designed for placement inside the sample. The plant is equipped with two end plugs for the sample and a source of working medium pressure, connected with the reservoir, formed by the sample and the plugs. The loading mechanism is made in the form of a cylinder with one closed end, a piston, placed inside the cylinder, a striker fixed at the end of the piston with the outlet via an open end of the cylinder, an electromagnet for interaction with the piston, fixed on the open end of the cylinder, and an accessory for movement and rotation of the cylinder inside the sample.

EFFECT: expanded volume of information by provision of tests under synchronous loading with mechanical load on sections of inner surface of a sample and growth of inner pressure in a tubular sample with adjustment of place, direction, duration and level of mechanical load.

1 dwg

Description

The invention relates to testing equipment, to strength tests.

A known installation for testing a tubular sample for strength (patent SU No. 1619128, class G01N 3/34, 1989), containing a base, mounted on it grips the sample and a loading mechanism designed to be placed inside the sample.

The disadvantage of the installation is the inability to conduct tests under simultaneous mechanical loading of parts of the inner surface and the loading of the internal pressure in the tubular sample with the regulation of the location, direction, duration and level of mechanical load. Tests are carried out under the action of only mechanical load.

A known installation for testing a tubular sample for strength (patent SU No. 1737324, class G01N 3/34, 1991), containing a base, mounted on it grips the sample and a loading mechanism designed to be placed inside the sample.

The disadvantage of the installation also lies in the inability to conduct tests under simultaneous mechanical loading of parts of the inner surface and the loading of the internal pressure in the tubular sample with the regulation of the place, direction, duration and level of mechanical load. Tests are carried out under the action of only mechanical load.

A known installation for testing a tubular sample for strength (patent SU No. 2017130, class G01N 3/34, 1994), taken as a prototype. The installation comprises a base, sample grips installed on it, and a loading mechanism intended for placement inside the sample.

The disadvantage of the installation also lies in the inability to conduct tests under simultaneous mechanical loading of parts of the inner surface and the loading of the internal pressure in the tubular sample with the regulation of the place, direction, duration and level of mechanical load. Tests are carried out under the action of only mechanical load. This limits the amount of information when studying the properties of tubular samples.

The technical result is to expand the amount of information by providing tests under simultaneous mechanical loading of sections of the inner surface of the sample and the increase in internal pressure in the tubular sample with the regulation of the place, direction, duration and level of mechanical load.

The technical result is achieved by the fact that the installation for testing a tubular sample containing a base, sample grips installed on it and a loading mechanism designed to be placed inside the sample, according to the invention, is equipped with two end caps for the sample and a pressure source of the working medium connected to the container formed sample and plugs, while the loading mechanism is made in the form of a cylinder with one closed end face, a piston placed inside the cylinder, a hammer, mounted on the end face of the piston with exit through the open end of the cylinder, an electromagnet for interaction with the piston, mounted on the open end of the cylinder, and devices for moving and turning the cylinder inside the sample.

Fig. 1 shows the installation diagram.

Installation for testing a tubular sample contains a base 1, mounted on it captures 2,3 of the sample 4 and the loading mechanism 5, designed to be placed inside the sample 4.

The installation is equipped with two end caps 6, 7 for sample 4 and a source 8 of working medium pressure connected to a container 9 formed by sample 4 and caps 6.7. The loading mechanism is made in the form of a cylinder 5 with one closed end, a piston 10 located inside the cylinder, a striker 11, mounted on the end of the piston with exit through the open end of the cylinder 5, an electromagnet 12 for interacting with the piston, mounted on the open end of the cylinder, and devices 13 to move and rotate cylinder 5 inside sample 4.

The device for movement and rotation is made in the form of a rod 13 and a rod 14, a sleeve 15, an axis 16, a latch 17 for turning the sleeve 15 relative to the axis 16 and a latch 18 for moving the rod 12 relative to the axis 16. The rod 14 has the ability to rotate and axial movement relative to the plug 7. The installation can be equipped with loaders 19 (hydraulic, screw, etc.) for bending the sample.

Installation works as follows.

The source 8 fill the tank 9 with the working medium and create an initial pressure on the inner walls of the sample 4. If necessary, the loaders 19 deform the sample 4 by bending. To create directed shock loads, an electromagnet 12 is turned on, under which a piston 10 with a hammer 11 dynamically moves to the open end of the cylinder 5. This movement creates a dynamic increase in the pressure of the working medium in the container 9, which loads the sample 4 with internal pressure, and dynamically loads a portion of the inner surface sample 4 drummer 11. When you turn off the electromagnet 12, the pressure of the medium returns the piston 10 and the drummer 11 to its original position. The frequency of loading is set by the frequency of switching on of the electromagnet 12, the force of successive shock loading is regulated by the control parameters of the electromagnet. The exposure time of the sample under the loads is set by the exposure time of the electromagnet 12 in the on state. When loaded, the level of mechanical load is regulated by an electromagnet.

To change the place and direction of application of mechanical loading, the orientation of the cylinder 5 inside the sample 4 corresponds, for which rods 13.14 and latches 17.18 are used. Bending loads are created and regulated by loaders 19.

The installation provides testing under new conditions - with simultaneous mechanical loading of parts of the inner surface of the sample and an increase in internal pressure in the tubular sample with regulation of the place, direction, duration and level of mechanical load.

Claims (1)

An apparatus for testing a tubular sample, comprising a base, sample grips installed on it, and a loading mechanism designed to be placed inside the sample, characterized in that it is provided with two end caps for the sample and a working medium pressure source connected to the container formed by the sample and caps, wherein the loading mechanism is made in the form of a cylinder with one closed end, a piston located inside the cylinder, a hammer mounted on the end of the piston with exit through the open end of the cylinder, e electromagnet for interaction with the piston mounted on the open end of the cylinder, and devices for moving and rotating the cylinder inside the sample.