CS217792B1 - Pressure measuring device for rock swelling - Google Patents

Abstract

The invention relates to the physical properties of rocks, determined for the purposes of technological and safety measures in mining. The purpose of the invention is to directly measure the pressure during the swelling of rocks with time. This is achieved by placing the rock sample in a rigid sleeve and a frame equipped with sensitive strain gauges, connected to an electrical evaluation device and time registration. The invention can also be used in construction.

Description

(54) Rock swelling pressure measuring equipment

The present invention relates to the physical properties of rocks, ascertained for the purpose of technological and safety measures in mining. The purpose of the invention is to directly measure the pressure during swelling of rocks over time.

This is achieved by placing the rock sample in a rigid sleeve and frame equipped with sensitive strain gauges connected to an electrical evaluation device and time recording. The invention can also be used in construction.

Giant. 1

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for measuring rock swelling pressure by receiving water at a constant bypass. The swelling pressure is an important value in terms of mine guidance in mining of raw material deposits, which greatly affects the correct choice of mine management technology and mine maintenance economics. In most cases, it is important to know the time course of the swelling pressure.

At present, the swelling pressure is measured using yoke dynamometers that have high compliance and therefore do not detect a constant volume pressure. Another device currently in use is based on the fact that the rock is subjected to a constant mechanical stress and it is ascertained whether the volume is increased by the action of water. On additional test specimens the applied stress is increased and the measurement is repeated until the volume is increased by the action of water. The disadvantage of this device is that a larger number of rock test pieces must be available for the measurement, which makes the measurement considerably lengthy and it is not possible to determine the time course of the swelling pressure.

These disadvantages are overcome by a rock swelling pressure measuring device consisting of a strain gauge which is connected to an evaluation device according to the invention. Its essence is that the strain gauge is attached to the outer frame. A flexible container is mounted at the bottom of this outer frame. The pliable container contacts at least two opposing walls of the outer frame via at least two lens elements attached to the wall of the pliable container. At the bottom of the flexible container, a cube-shaped rock is placed in a rigid sleeve with a stiffness of at least 5 MN cm ^-1 by means of a wedge and washers. The two opposing walls of this rock, over pads and wedges, touch the lens-like elements attached to the wall of the yielding container. Another advantage, in particular of facilitating the exchange of the sample and the possibility of changing the rigidity of the device, is the attachment of the tomometer to an exchange part which is fixed, preferably screwed to an outer frame provided with at least one through wall at the through wall. Another advantage, in particular the acceleration of rock swelling, is the provision of pads by fine grooving.

An advantage of the device according to the invention is that it can be used to determine the pressure during swelling of a rock at a constant volume using a single test specimen over time. Another advantage of this device is its simplicity and ease of handling.

The device according to the invention is further elucidated by way of example with reference to the drawing, in which Fig. 1 shows a cross-section of the device and Fig. 2 a view of a rigid sleeve.

The device consists of a strain gauge 8, which is attached to the exchange part 6. This exchange part 6 is screwed to the outer frame 5 provided with at least one through wall at the location of the through wall. At the bottom of the outer frame 5 is a flexible container 4. This. The compliant container 4 contacts two opposing walls of the outer frame 5 via two lens elements 7 which are welded to the opposite wall of the compliant container 4 on a line perpendicular to these walls. cm ^-1 , according to FIG. 2, a cube-shaped rock is deposited by means of a wedge 2 and washers 9. Two opposing walls of this rock, perpendicular to the connection of the lens elements 7, over the other wedges 3 and the washers 9 contact the lens elements 7. The strain gauge 8 is connected to an interim evaluation device. The washers 9 are provided with fine grooves on the rock side.

The cube-shaped rock body, fixed in two axes in the rigid sleeve 1, is supported with this rigid sleeve 1 at the bottom of the yielding container 4. The other axis of the rock body extends over the washers 9, additional wedges 3 and lens elements 7 into the outer wall The frame 5 and the replaceable part 6. The raft da is filled into the yielding vessel 4 and the pressure generated by the swelling of the rock at a constant volume and its time course is registered on the evaluation device (not shown).

Claims (3)

Subject A rock swelling pressure measuring device comprising a strain gauge which is connected to an evaluation device, characterized in that the tenzoaneter (8) is attached to the outer frame (5) on the bottom of which is a supporting container (4), touching at least two lens-like elements (7) attached to the wall of the flexible container (4), at least two opposite walls of the outer ¹ frame (5), the bottom of the flexible container (4) being in a rigid sleeve (1) of at least 5 MN.cm ' ¹ by means of a wedge (2) and washers (9) is placed a rock in the shape of a cube, two BACKGROUND OF THE INVENTION opposing walls contact lens-like elements (7) attached to the wall of the flexible container (4) via pads (9) and other wedges (3). Device according to claim 1, characterized in that the strain gauge (8) is fixed by means of a replacement part (16), which replacement part (6) is fixed, preferably screwed, to an outer frame (5) which is provided with at least one through the wall, at the point of this wall. Device according to Claims 1, 2, characterized in that the washers (9) are provided with fine grooving.