RU2523088C1 - Test bench of energy interchange at rock destruction - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: stand includes base, coaxial sample grips mounted on the base, sample loading device connected to the grips, mechanical sample processing device and platform for processing devise movement against grip axes. Additionally the stand features aggregate for grip turning around grip axis, consisting of drive with two gear wheels bearing the grips, on the drive shaft.

EFFECT: extended functionality of stand due to test performance at changing directions of mechanical processing against radial directions of sample.

1 dwg

Description

The invention relates to testing equipment, to testing, mainly, samples of rocks.

A well-known stand for the study of energy transfer during the destruction of rocks (RF patent No. 1793311, class G01N 3/08, 1992), containing a base, sample grips coaxially mounted on it, a device for loading the sample associated with grippers, a mechanism for interacting with the sample, a platform for moving the mechanism perpendicular to the axis of the grippers.

The disadvantage of the stand is that it is not feasible to test with changes in the directions of machining relative to the radial directions of the sample.

A well-known stand for studying energy transfer during rock destruction (RF patent No. 1837200, class G01N 3/08, 1993), containing a base, sample grips coaxially mounted on it, a device for loading a sample associated with grippers, a machining mechanism and a platform to move the mechanism perpendicular to the axis of the grippers.

The disadvantage of the stand also lies in the fact that it is not feasible to test with changes in the directions of machining relative to the radial directions of the sample.

A well-known stand for the study of energy transfer during the destruction of rocks (RF patent No. 2367925, class G01N 3/08, 2009), taken as a prototype. The bench comprises a base, sample grips coaxially mounted on it, a device for loading the sample associated with the grippers, a mechanism for machining the sample, and a platform for moving the mechanism relative to the axis of the grippers.

The disadvantage of the stand also lies in the fact that it is not feasible to test with changes in the directions of machining relative to the radial directions of the sample. This limits the functionality of the stands.

The technical result is to expand the functionality of the stand by providing tests when changing the directions of machining relative to the radial directions of the sample.

The technical result is achieved by the fact that the stand for studying energy transfer during rock destruction, containing a base, sample grips coaxially mounted on it, a device for loading the sample associated with grippers, a mechanism for machining the sample and a platform for moving the mechanism relative to the axis of the grippers, according to the invention is equipped with a mechanism for turning the grippers around their axis, which includes a drive on the shaft of which two gears are mounted on which the grippers are fixed.

Figure 1 shows the layout of the stand.

The bench for studying energy transfer during rock destruction contains a base 1, coaxially mounted grippers 2, 3 of specimen 4, a device 5 for loading the specimen associated with grippers, a mechanism 6 for machining the specimen, and a platform 7 for moving the mechanism 6 relative to axis 0- 0 captures.

The stand is equipped with a mechanism 8 for turning the grippers 2, 3 around their axis 0-0. The mechanism for turning the grippers includes a drive 8, on the shaft 9 of which are mounted gears 10, 11, associated gears 12, 13, on which the grippers 2, 3 are fixed.

The stand has a support bearing 14 mounted between the base 1 and the gear 12, and a support bearing 15 mounted between the device 5 for loading the sample and the gear 13. The gripper 2 is mounted on the gear 12, the gripper 3 is mounted on the gear 13. The device 5 is made in the form of a hydraulic cylinder with a piston connected to a pumping station (not shown). The platform 7 together with the mechanism 6 can move along the axis of the grippers 2, 3 of the sample when the handle 16 is rotated, in a vertical plane (according to the drawing) when the handle 17 is rotated, in the direction of influence on the sample when the handle 18 is rotated and rotate in a horizontal plane (according to the drawing) during rotation of the handle 19. The mechanism 6 can be performed, for example, drilling, cutting, etc.

The stand works as follows.

The device 5 creates the specified axial load on the sample 4. The mechanism 6 performs mechanical processing of the sample, for example, holes are made in different places along the length of the sample using the handle 16 and moving the platform 7 along the axis 0-0. To make holes at different distances from the axis 0-0 of the sample in the plane of the drawing, use the handle 17 and move the platform 7 vertically in the plane of the drawing. To make holes to different depths, use the handle 18, and to process the sample at different angles to the axis 0-0, use the handle 19, making the corresponding movements and rotations of the platform 7. The machining in the embodiment shown in Fig. 1 is directed along a radius perpendicular drawing surface. To change the direction of machining relative to the radial directions of the sample, the mechanism 8 is turned on and the grippers 2, 3 and sample 4 are turned through a pair of gears 10-12 and 11-13 by a given angle.

The stand provides the study of energy exchange in new conditions - with changes in the directions of machining relative to the radial directions of the sample, which extends the functionality of the stands.

Claims (1)

A bench for studying energy transfer during rock destruction, containing a base, sample grips coaxially mounted on it, a device for loading the sample associated with grippers, a mechanism for machining the sample and a platform for moving the mechanism relative to the axis of grippers, characterized in that it is equipped with a mechanism for the rotation of the grips around their axis, which includes a drive on the shaft of which two gears are mounted on which the grippers are fixed.