SU1597675A1 - Loading device - Google Patents

Abstract

The invention can be used to test samples at high temperatures. The purpose of the invention is to expand the operational capabilities by ensuring operability under high temperature conditions, as well as improving accuracy by reducing friction. Guides 2 are installed in the housing 1, made in the form of cylindrical rods, in which the rod 3 moves, made with annular toroidal protrusions 4. Test sample 7 is placed in the device, heated together with it to a predetermined temperature and loaded with axial force. In this case, the movement of the rod 3 under the conditions of high temperatures is carried out smoothly without jamming. Making the axial section radius of the annular toroidal protrusion 4 equal to the radius of the guide 2 (cylindrical rod) minimizes the contact area between them, which reduces friction and improves the accuracy of the transfer of the loading force. Making the guides 2 of non-metallic material avoids the cases of welding the rod 3 to the guides 2 and reduces friction between them without the use of lubricant. 2 hp ff, 2 ill.

Description

The invention relates to a testing technique and can be used when testing samples at high temperatures.

The aim of the invention is to enhance the operational capabilities by ensuring operability under high temperature conditions, as well as improving accuracy by reducing friction.

FIG. 1 shows the structural scheme of the device, (axial section); in fig. 2 - the same, top view;

The loading device comprises a housing 1 with a hole in which a guide 2 is installed, a stem 3 with annular toroidal projections. 4, the rod 3 mounted in the guides 2 is connected to a power drive (not shown) by means of a heel 5. In the case 1 a fixed heel is mounted, 6 on which the test sample 7 is mounted. Heel 5 and a fixed heel 6 they are centered with balls 8. Direction 1sh 2 is made in the form of cylindrical rods of non-metallic heat-resistant material, such as quartz or ceramics. The radius of the face toroidal protrusion 4 in its axial section is equal to the radius of the rod.

The device works as follows.

The test sample 7 is placed between the stationary heel 6 and the end of the rod 3 and heats it together with the device to a predetermined temperature. Then the sample 7 is loaded by applying an axial force to the point 5, with the rod 3 moving in the guides 2, the interaction with which made along the annular toroidal protrusions 4. Since the guides 2 are made in the form of cylindrical ster

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and the stem 3 with lance toroidal protrusions 4, the stem 3 slides under high temperatures smoothly without jamming, and the axial section radius of the annular toroidal 4 is equal to the radius of the guide 2 (cylindrical rod), minimizes the contact area between them, which reduces friction and, consequently, increases the accuracy of the transfer of the loading force to the sample 7. The implementation of the guides 2 of non-metallic material avoids cases of welding the rod 3 to the guides 2 and reduces friction between them without the use of grease.

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Claims (3)

Invention Formula It loads its device, comprising a body with a hole, guided in the hole and fixed on the body, a cylindrical rod mounted in guides and intended to be connected to a power drive, characterized in that it is expanded in order; and operational capabilities by ensuring operability under high temperature conditions, the guides are made in the form of identical cylindrical rods mounted parallel to the axis of the stem, and the stem is made with circular toroidal projections. 2. The device according to claim 1, that is, so that, for the purpose of accuracy, the radius of the axial section of the pit is equal to the radius of the rod. 3. DEVICE on PP. 1 and 2, about t - characterized by the fact that the rod is made of metal, and the direction of the ush 1e is made of non-metallic material. FIG. g