DE3331915A1 - Method and arrangement for measuring the mechanical properties of rock and minerals "in situ" for determining the rock-burst tendency of the deposit and the country rock - Google Patents

Abstract

To determine the rock-burst tendency of deposits, in particular coal seams, the mechanical properties of the minerals as well as of the country rock are determined. To this end, bores are made in the mineral, and deposited there is a measuring probe which has pressure plates which can be moved against the borehole wall. These pressure plates are acted upon by an increasing hydraulic pressure, or by a decreasing hydraulic pressure after a maximum value is reached, the pressure changes being continuously determined, compared and analysed. To this end, an inductive displacement-measuring device or a wire-strain-gauge pressure sensor is allocated to the probe or the hydraulic line. These devices are in turn connected to a computer via amplifiers and further processing units. In this way, the natural tendency of the seam to result in rock burst in the rock mass can be determined in good time and thus the particular state can be checked and if need be rendered safe or worked by suitable means. <IMAGE>

Description

Method and device for measuring the mechanical

Properties of rocks and minerals "in situ" for determination the rockfall slope of the deposit and the host rock The invention relates to a method for determining the rockfall inclination of deposits, in particular underground hard coal deposits or parts thereof, by measuring the mechanical Properties of the minerals and / or the host rock. The invention relates to also a device for carrying out the method, consisting of in the Borehole to be introduced pressure transducers.

One of the most difficult unsolved problems in the coal industry in particular is the danger of rockfalls. There has been a lot of development work here in recent years has been done to recognize the danger of rockfalls at an early stage and the Reduce the risk of rockfalls by taking suitable measures. It was found that the rockfalls occur when two conditions occur at the same time, the natural inclination of the seam to rockfalls and the corresponding stress concentration in the mountain range. The previous procedures for the identification and prevention of rockfalls were essentially aimed at stress concentration. It is also has been attempted by determining the natural inclination of the seam or the Deposit to come to early discoveries about rockfalls (1. Szecowka, Z. - Zmiana niektorych wlasnosci mechanicznych wegla wskutek nawordnienia w aspekcie zwalczania tapan pokladowych, Prace GIG komunikat 568, Kattowitz 1972; 2. Szecowka, Z. - Wskaznik energetyczny sklonnosci naturalnej wegla do tapan, Prace GIG Komunikat 594, Katowice 1973).

The numerical energy value serves as a description of the mathematical one Relationship between the mechanical properties of coal and its tendency to Mountain ranges. For this, the mechanical properties had to be determined for which exclusively in the laboratory the compressive strength, total deformation, elastic deformation, Permanent deformation, brittleness and the modulus of elasticity and the energy balance are determined became. For this purpose, coal samples taken underground were systematically pressurized. The disadvantage of the known method is that by taking the coal samples Errors can arise that the under ge existing side effects cannot be taken into account and that resulting changes are not included in the calculation can be.

The invention is based on the object of a method for determining the natural tendency of the seam to rockfalls directly in the deposit and to provide a suitable device for carrying out the method.

The object is achieved according to the invention in that in the deposit and / or the adjacent rock bores are introduced that the borehole wall is then targeted deformed and the resulting pressure changes measured, compared and be evaluated.

With the help of the method according to the invention can immediately before Location the properties of the host rock or the minerals, e.g. coal, determined and then evaluated there or centrally above ground. With the help of Stress on the borehole wall, exactly the values can be determined, which to a precise and unambiguous assessment of the mechanical properties of the mineral and its tendency to rockfalls. With the invention All underground factors are taken into account so that an accurate Assessment of the properties of the respective deposit or seam area is possible is.

According to an embodiment of the invention it is provided that the Readings in the range below 80% of the compressive strength of the mineral and / or the host rock be determined. The deformation changes with increasing stress determines what a stress and deformation curve results from in the loading phase results.

To refine the process, the pressure is given with a predetermined The speed of loading depends on the mechanical properties of the Minerals dependent.

In further optimization of the procedure, the relief with the made at the same speed, whereby the individual values are also determined will. Then the energetic one resulting from the loading and unloading phase becomes appropriate Balance calculated, for example with another computer, d.

H. it becomes the entire energy, the elastic deformation energy and the energy loss is determined. The quotient of elastic deformation energy and energy loss results from the energy characteristic of the inclination of the material to mountain ranges.

A device is used to carry out the process Borehole to be introduced pressure transducers. According to the invention, there are several probes here Pressure plates assigned, the probe via a hydraulic line with a return valve is connected to a high pressure pump. The pressure plates are over the hydraulic pump can be acted upon and are moved according to the method against the borehole wall or pressed against this.

A uniform and correct application of the pressure is produced according to the invention in that the pressure plates are in the radius of the borehole are formed curved. In order to reliably measure the pressure changes that occur To be able to, the probe is appropriately assigned an inductive position measuring device. One Another possibility is to assign a strain gauge pressure transducer to the hydraulic line, whereby both measuring units are expedient to safeguard and optimize the entire process are provided. The measuring device and the pressure transducer are connected via an amplifier connected to a computer, so that a quick and precise evaluation of the determined Values is secured.

The technical progress of the present invention and its advantages are essentially to be seen in the fact that with the method according to the invention and the device to the expert are given solutions to hand, which he early and taking into account all the criteria available underground, the values are safe and can quickly determine which gives him an assessment of the natural inclination of the Allow seams to form mountain ranges in the mountains. The device makes it possible him, the values continuously or at time intervals automatically to determine and to transmit surface evaluation units, where the fast and precise evaluation is guaranteed.

Furthermore, the progress is in a more complete and accurate Assessment of the potential risk of rockfalls, as well as in saving the number of test boreholes and the precise assessment of the means used to prevent rockfalls to see. In addition, the economic savings in coal mining should be emphasized.

Further details and advantages of the method according to the invention and the device are explained with reference to the single figure.

1 shows a block diagram.

A probe 1 is used for the measurement, which is inserted into the depth of the borehole a borehole 22 is introduced into the deposit or the adjacent rock. the Probe 1 is connected to a high pressure pump via a hydraulic line 2 and a check valve 4 5 connected, with which hydraulic fluid is fed to the probe 1. In the Probe 1 are embedded pressure plates 20, 21, which are acted upon by the high pressure liquid and pressed into the wall of the borehole 22. During the measuring process the pump pressure increases continuously starting from a predetermined minimum value. The mineral in the vicinity of the borehole wall is thereby removed from the pressure plates 20, 21 of the probe 1 deformed. The resulting pressure changes are measured with a strain gauge pressure transducer 6, which is connected to the hydraulic line via a measuring line 2 is connected.

The measured pressure values are converted into electrical by the DMS pressure sensor 6 Control signals implemented.

At the same time, the pressure plates 20, 21 on the borehole wall generated deformation with an inductive displacement measuring device arranged in the probe 1 23 measured. The measured values are obtained with a signal line connected to the probe 1 3 fed via an amplifier 7 to a computer 10.

The hydraulic pressure increases the tension in the area of the borehole wall determined. With the help of a program-controlled computer 16 based on the numerical values a stress curve determined.

The coming from the position measuring device 23 or the DMS pressure transducer 6 Signals are amplified via the strain gauge amplifier 7 or the measuring amplifiers 8, 9, fed to the converter 10. The strain gauge amplifier 7 is a DC voltage amplifier, the measuring amplifier 8, 9 as a carrier frequency measuring amplifier for inductive Wegge-.

trained over.

Behind the logic to digitizer 10 is a liquid crystal LCD display 11 provided. The power supply is denoted by 12.

The measured values determined are via the semiconductor memory 13, the Logic 14, the interface 15 fed to the computer 16. At 17 and 18 is the plotter or printers referred to, which are also arranged above ground.

1 probe 2 hydraulic line 3 signal line 4 valve 5 hydraulic pump 6 strain gauge pressure transducer 7 strain gauge amplifier 8 measuring amplifier 9 measuring amplifier 10 converter 11 LCD display 12 Power supply 13 Semiconductor memory 14 Logic 15 Interface 16 Computer 17 Plotter 18 Printer 20 Pressure plate 21 Pressure plate 22 Borehole 23 Distance measuring device - Blank page -

Claims (10)

Method and apparatus for eating mechanical properties of rocks and minerals "in situ" to determine the rockfall slope of the Deposit and the host rock Claims: Method for determining the Rockfall tendency of deposits, especially underground hard coal deposits or parts thereof, measurement of the mechanical properties of the minerals and / or the adjacent rock, characterized in that in the deposit and / or the adjacent rock drilled holes that the borehole wall is then deliberately deformed and the pressure changes that occur are measured, compared and evaluated will. 2. The method according to claim 1, characterized in that the measured values in the range below 80% of the compressive strength of the mineral and / or the host rock be determined. 3. The method according to claim 1 and claim 2, characterized in that that the pressure is built up with a given loading rate, which depends on the mechanical properties of the mineral in question. 4. The method according to claim 3, characterized in that the discharge is done at the same speed. 5. The method according to claim 1 to claim 4, characterized in that that the energetic balance resulting from the loading and unloading phase and the energetic characteristic value of the tendency to rockfalls is calculated. 6. Apparatus for performing the method according to claim 1 to Claim 5, consisting of pressure transducers to be introduced into the borehole, characterized in that that a probe (1) several pressure plates (20, 21) are assigned, obei the probe (1) via a hydraulic line (2) with check valve (4) with a high pressure pump (5) is connected. 7. Apparatus according to claim 6, characterized in that the pressure plates (20, 21) are formed curved in the radius of the borehole (22). 8. Apparatus according to claim 6, characterized in that the probe (1) an inductive position measuring device (23) is assigned. 9. Apparatus according to claim 6, characterized in that the hydraulic line (2) a strain gauge pressure transducer (6) is assigned. 10. Apparatus according to claim 8 and claim 9, characterized in that that the measuring device (23) and the pressure transducer (6) via amplifiers (7, 8, 9) with a computer (16) are connected.