RU2523076C1 - Thermal loading device for sample test stand - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: thermal loading device includes platform carrying friction element, support element out of heat-conducting material, device of reciprocal motion of the friction and support element with rotation drive, and device for reciprocal contraction of the friction and supporting element. Additionally, thermal loading device features a pulley with kinematic connection to rotation drive. Friction element is made in the form of closed flexible element embracing the pulley, support element is made in the form of a tube set shifting inside sample along thermal loading line. Friction element is positioned in the hollows of supporting element tubes.

EFFECT: increased data volume due to possible tests with thermal load supply to different parts of sample volume along adjustable curve of thermal loading.

1 dwg

Description

The invention relates to means for testing samples under complex loading and can be used in conjunction with stands for studying energy exchange during deformation and destruction of solids.

A known thermal loader to the stand for testing samples (RF patent No. 1610382, class G01N 3/18, 1990), containing a platform, a friction element mounted on it, a support element of heat-conducting material, a device for mutual movement of the friction and support elements with a rotation drive and device for mutual tightening of friction and support elements.

The disadvantage of the thermo-loader is that it does not allow studies to be carried out when the thermal load is applied to different parts of the sample volume along an adjustable curved line of thermal loading.

A known thermal loader to the stand for testing samples (RF patent No. 1603224, class G01N 3/10, 1990) containing a platform, a friction element mounted on it, a support element of heat-conducting material, a device for mutual movement of the friction and support elements with a rotation drive and device for mutual tightening of friction and support elements.

The disadvantage of the thermo-loader is also that it does not allow studies to be carried out when the thermal load is applied to different parts of the sample volume along an adjustable curved line of thermal loading.

Known thermal loader to the stand for testing samples (RF patent No. 2367926, CL G01N 3/18, 2008), taken as a prototype. The thermal loader comprises a platform, a friction element installed on it, a support element of heat-conducting material, a device for mutual movement of the friction and support elements with a rotation drive, and a device for mutual compression of the friction and support elements.

The disadvantage of the thermo-loader is also that it does not allow studies to be carried out when the thermal load is applied to different parts of the sample volume along an adjustable curved line of thermal loading. This limits the amount of information in research.

The technical result of the invention is to increase the amount of information by providing research when applying thermal load to different parts of the sample volume along an adjustable curved line of thermal loading.

The technical result is achieved by the fact that the thermo-loader to the test bench for samples, containing a platform, a friction element mounted on it, a support element of heat-conducting material, a device for mutual movement of the friction and support elements with a rotation drive and a device for mutual compression of the friction and support elements, according to According to the invention, it is equipped with a pulley kinematically connected to a rotation drive, the friction element is made in the form of a closed flexible element covering the pulley , the support element is made in the form of a set of tubes intended for placement inside the sample along the thermal loading line, while the friction element is placed in the holes of the tubes of the support element.

Figure 1 shows the diagram of the thermal loader, a side view (Fig. 1a), top (Fig. 1b) and a unit for the mutual placement of the friction and support elements (Fig. 1c).

The thermal loader to the test bench contains a platform 1, a friction element 2 mounted on it, a support element 3 of heat-conducting material, a device 4 for mutual movement of the friction and support elements with a rotation drive 5 and a device 6 for mutual compression of the friction and support elements.

The thermal loader is equipped with a pulley 7, kinematically connected with the rotation drive 5. The friction element 2 is made in the form of a closed flexible element covering the pulley 7. The supporting element 3 is made in the form of a set of tubes designed to be placed inside the sample 8 along the thermal loading line. Friction element 2 is placed in the holes of the tubes of the supporting element 3.

The friction element can be made of metal wire, the support element of metal tubes, the length of which depends on the curvature of the thermal loading line: the greater the curvature, the shorter the length of the tubes. The device 4 is made in the form of a carriage. The device 6 for mutual tightening of the friction and support elements is made in the form of a spring with a tensioner 9.

Thermal loader works as follows.

In the manufacturing process of sample 8 from concrete, equivalent material, etc. the tubes of the support element 3 are placed with the friction element 2 located therein along the thermal loading line. Place the sample 8 on a test press (not shown) together with the platform 1 and the elements placed on it. Connect the friction element 2 with the pulley 7 and the device 6 with the tensioner 9, create a given mutual compression of the friction 2 and the supporting 3 elements. The rotation drive 5 is turned on and the friction element 2 is relative displaced relative to the support element 3 by a pulley 7, as a result of which the tubes of the support element 3 are heated and the sample 8 is thermally loaded along a predetermined line. Regardless of this, mechanical loading of the sample or other impact on the sample is performed in accordance with the objectives of the research. The level of thermal load is regulated by the force of mutual preload and the speed of mutual movement of the friction and support elements.

The proposed device allows to study the properties of materials under new conditions of thermomechanical loading - when applying thermal load to different parts of the sample volume along an adjustable curved line of thermal loading, which increases the amount of information in the research.

Claims (1)

A thermo-loader to the test bench, comprising a platform, a friction element mounted on it, a support element made of heat-conducting material, a device for mutual movement of the friction and support elements with a rotation drive and a device for reciprocating the friction and support elements, characterized in that it is equipped with a pulley kinematically connected with the rotation drive, the friction element is made in the form of a closed flexible element covering the pulley, the supporting element is made in the form of a set of side, designed to be placed inside the sample along the line of thermal loading, while the friction element is placed in the holes of the tubes of the supporting element.