RU96965U1 - SAMPLE TEST INSTALLATION - Google Patents

Abstract

 An apparatus for testing specimens, comprising a housing, coaxial rings for contacting the ends installed in it, an axial displacement mechanism for the rings and a mechanism for mutual displacement of the rings in the plane of their contact, characterized in that the rings have a mutual axial rotation mechanism.

Description

Sample Testing Facility

The invention relates to testing equipment, to strength tests.

A known installation for testing samples (RF patent No. 1415130, class G01N 3/24, 1985), comprising a housing, coaxial rings installed in it by contacting ends, intended for gripping the sample, a mutual displacement mechanism of the rings.

The disadvantage of the installation is that it conducts shear tests in different directions without the possibility of subsequent friction tests.

A known installation for testing samples (RF patent No. 1610385, class G01N 3/24, 1989), comprising a housing, coaxial rings installed in it by contacting ends, intended for gripping the sample, a mutual displacement mechanism and a mutual rotation mechanism of the rings in the plane of their contact.

The disadvantage of the installation is that it performs shear tests in different directions in the shear plane without the possibility of subsequent friction tests.

A known installation for testing samples (RF patent No. 1827571, class G01N 3/24, 1993), taken as a prototype. The installation comprises a housing, coaxial rings installed in it contacting the ends, intended for setting the specimen, an axial displacement mechanism of the rings and a mutual displacement mechanism of the rings in the plane of their contact.

The disadvantage of the installation is that it conducts shear tests with subsequent friction only when the parts of the sample are mutually displaced along the shear plane. Shear tests with subsequent friction both with mutual displacement and with the mutual rotation of the parts of the sample along the shear plane on this installation are not feasible. This reduces the amount of information when testing layered anisotropic materials, such as rocks, soils, building materials.

The technical result of the invention is to increase the amount of information by providing shear tests with subsequent friction both with mutual displacement and with mutual rotation of the parts of the sample along the shear plane.

The technical result is achieved by the fact that the installation for testing samples, comprising a housing, coaxial rings installed therein with contacting ends, intended for gripping the sample, an axial displacement mechanism of the rings and a mutual displacement mechanism of the rings in the plane of their contact, according to the invention, the rings have a mutual axial rotation mechanism .

An additional mechanism allows testing under additional conditions - during shear and friction with mutual rotation of the parts of the sample along the plane of the shear, which is not feasible in the prototype and is a technical result.

Figure 1 presents the installation diagram.

The apparatus for testing the samples comprises a housing 1, coaxial rings 2, 3 installed in it by contacting the ends, and intended for gripping the sample 4, an axial displacement mechanism 5 of the rings and a mutual displacement mechanism 6 of the rings in the plane of their contact.

Rings 2, 3 have a mechanism 7 of mutual axial rotation.

The mechanism 5 of the axial displacement of the rings is made in the form of a two-way hydraulic cylinder, with a ring 8 connected to a ring 3. The hydraulic cylinder 5 is connected to the ring 3 by guides 9, which provide synchronous rotation of the ring and the hydraulic cylinder and axial movement of the ring relative to the hydraulic cylinder. Ring 2 is fixed on the housing 1 motionless. The mechanism 6 of the mutual displacement of the rings in the plane of their contact is made in the form of a hydraulic cylinder, the rod 10 of which is connected with the axial displacement mechanism 5. The mechanism 7 of the mutual axial rotation of the rings is made in the form of a rotation drive, on the rotor 11 of which a small gear wheel 12 of the gear pair is installed, and a large gear 13 of the pair is mounted on the hydraulic cylinder 5. The housing of the mechanism 7 is connected to the housing of the mechanism 6 of the guide 14. The housing of the mechanism 5 is mounted on ball supports 15. Ring 3 is connected to the rod 8 by a latch 16. The end face of sample 4 is supported by a platform 17 with a screw 18 to move the platform along the axis of the ring 2. The hydraulic cylinders of the installation are serviced by a pump station (not shown).

Installation works as follows.

When the latch 16 is turned off, the rod 8 of the mechanism 5 loads the sample 4 with axial force. To destroy the sample 4 by a cut with mutual displacement along the plane of contact of the rings 2,3 with the rod 10 of the mechanism 6 through the housing 7 and the rotor 11 move the mechanism 5 together with the ring 3 in the direction perpendicular to the axis of the rings. To destroy the sample by a cut during mutual rotation around the axis of rings 2, 3 along the plane of contact of the rings, the mechanism 7 is turned on and the hydraulic cylinder 5 with the ring 3 is turned through the gear pair 12, 13 with respect to the ring 2. To continue the friction tests, the lock 16 and the reverse gear 5 rod 8 create a gap between the rings 2, 3. Rotate the screw 18 and move the platform 17 with the sample 4 to a position where the cut plane of the sample protrudes beyond the end of the ring 2. For friction tests with mutual displacement of the separated parts of the sample perpendicular In a linear fashion to the sample axis, a mechanism 6 for mutual displacement of the rings is used. For friction tests during the mutual rotation of the separated parts of the sample around the axis of the sample include a mechanism 7 for mutual rotation of the rings. For tests with simultaneous displacement and mutual rotation, both mechanisms 6 and 7 are used for both shear and friction.

The installation provides shear tests with subsequent friction both with mutual displacement and with mutual rotation of the parts of the sample along the shear plane.

Claims (1)

An apparatus for testing specimens, comprising a housing, coaxial rings installed in it by contacting ends, intended to set the specimen, an axial displacement mechanism for the rings and a mutual displacement mechanism for the rings in the plane of their contact, characterized in that the rings have a mutual axial rotation mechanism.