RU2679206C1 - Method of imitation of mining pressure displays in developments on models from equivalent materials - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to the mining industry and can be used to simulate the manifestation of rock pressure in the workings, fixed anchor bolting. Method includes forming a model of a mountain massif from equivalent materials, constructing an excavation in it, fixing its roof with anchor bolts and the subsequent predetermined loading of the massif model. At the same time, during the model molding the contours of the same or different sections planned for simultaneous development of the excavations are outlined, then, after the model is loaded to the simulated depth, the planned developments are simultaneously carried out. Before stitching the array with anchor, fix the movement of the roof and the array around the workings and the pressure change in the soil workings in the unloading zone and the reference pressure zone. Then the roof stitching anchor lining with various elements of fastening is carried out, and after these operations start to simulate the movement of the clearing face, taking into account its approach, passage and removal from the place of measurement by phased delivery of the model on the basis of data obtained under the conditions of similarity on models from equivalent materials, or field studies data. At the same time, the displacement of the sewn roof and the massif around the workings, as well as the displacement of the contours of the workings in the soil-roof and sideways directions, are constantly monitored and the readings of pressure sensors in the soil workings in the unloading zone and the reference pressure zone are recorded.EFFECT: technical result consists in increasing the informativeness of modeling.1 cl, 2 dwg

Description

The invention relates to the mining industry and can be used to simulate the manifestation of rock pressure in the workings, fixed anchor support.

There is a method of studying the stability of preparatory workings, fixed with anchor support, on models of equivalent materials (NI Melnikov. "Anchor support", M .: Nedra, 1980. - 248 p.), Which consists in manufacturing on the stand an array of equivalent material, the construction of production in it, the installation of anchor support, the subsequent unloading of the array and the measurement. At the same time, the design of the anchor support used in the model corresponds in kind to spacer metal anchors with a diameter of 25 mm, the anchors are imitated with metal rods with a diameter of 4 mm. Anchors were fixed with the help of a “mustache” made on the upper end of the rod.

The disadvantage of this method is the pinning of the anchor in the array, which does not reflect the principles of operation of the steel-polymer anchor lining, in which the fixing in the hole is carried out along its entire length. In addition, using this method it is impossible to determine how the time interval between the exposure of the roof and the installation of the anchor support the development of displacements. In natural conditions, when installing anchors, they do not deal with a continuous, but already partially delaminated array, and the magnitude of this delamination is determined by the time that has passed from the moment the roof was exposed to the installation of the lining. Moreover, the longer this time, the more intense the separation and the less effective the installed lining.

A known method of studying the manifestations of rock pressure on models made of equivalent materials (Badtiev B.P. Justification and development of technical solutions to ensure the stability of the preparatory workings in the extremely stressed block mass of Tolnakh mines. Abstract for the degree of candidate of technical sciences. St. Petersburg, 2001 19, p.), which includes the manufacture of a model of the array from equivalent material on the stand, the construction of a mine in it, the installation of anchors in it, the subsequent loading of the array and the measurement Nij. Holes with a diameter of 1.5-2 mm were drilled under the anchors in the model array; anchors made of calibrated wire with a diameter of 0.75 mm were installed in them. Anchors before installation were wetted with a hardening solution consisting of epoxy resin, hardener and cement. Thus, the anchors were coupled with the model array along the entire length of the hole, which achieved a complete analogy with the work of steel-polymer lining.

The main disadvantage of this method, as in the previous case, is the impossibility of studying the influence of time from the past moment of exposure of the roof to its fastening on the stability of the fixed output.

A known method of modeling on models of equivalent materials the manifestations of rock pressure in the workings (RF patent for the invention No. 2425223, authors Rosenbaum M.A., Udalov A.E. et al, IPC E21D 11/00, G09B 23/40), adopted for a prototype, which includes forming a model of a rock mass from equivalent materials, constructing a mine in it, securing its roof with an anchor support, following a given load of the mass model and measuring the deformations and displacements of the roof in it. A rigid support is installed in the mine, the distance from which to the mine roof is taken to be equal to the displacement of the roof in kind over a certain period of time, taking into account the geometric scale of the simulation, the model is loaded until the mine roof drops to the rigid support, after which the anchor support is erected and remove the rigid support.

The disadvantage of the prototype is the low information content, manifested in:

1) the lack of variety of manifestations of rock pressure in the workings of various configurations and with various fixing elements of the anchor support fixed during simulation on the model. So, in workings of a rectangular section and in workings of an inverted trapezoid type, the redistribution of rock pressure will differ significantly.

2) when modeling the movement control of the massif around the workings, in addition to the roof (the beginning of deflection, stratification, the manifestation of fracture zones, etc.) from the time the workings were carried out until the roof was strengthened with anchor support, and then - until the beginning and as the movement was simulated, 2) slaughter;

3) when modeling the control of the formation of unloading and soil load, the absence of mine workings (especially with its ability to heave);

The technical result is an increase in the information content of the simulation.

To implement the above technical result in a method of simulating the manifestation of rock pressure in mine workings on models of equivalent materials, including molding a rock mass model from equivalent materials, constructing a mine in it, fastening its roof with anchor support, the subsequent given load of the rock mass model and measuring deformations in it and displacements, according to the claimed technical solution, during molding of the model outline the contours of the same or different sections planned for simultaneous the studied workings, then, after the model is loaded to a simulated depth, the planned workings are carried out at the same time, before the array is sewn with anchor support, the movement of the roof and the array around the workings and the pressure in the soil of the workings in the unloading zone and the reference pressure zone are fixed, then the roof is stapled with anchor support with various fixing elements, and after the indicated operations, they begin to imitate the movement of the working face taking into account its approach, passage and removal from the measurement site by a stage model loading on the basis of data obtained in compliance with similar conditions on models of equivalent materials, or field studies in similar mining and geological and mining conditions, taking into account the time scale, while constantly monitoring the movement of the cross-linked roof and the array around the workings, as well as the displacement the contours of the workings in the directions of the soil - the roof and side - side and record the readings of the pressure sensors in the soil of the workings in the unloading zone and the zone of reference pressure.

The proposed method is illustrated by drawings, where in FIG. 1 shows a model formed from the implementation of the proposed method from gypsum-sand equivalent materials, and in FIG. Figure 2 shows the model after conducting workings and installing contour frames in them.

During the molding of model 1, outlines of identical or different sections planned for the simultaneous study of workings 2 are outlined. Moreover, to further sew the roof outside the outlined contours, lay anchors 3 without fastening elements, and for further research, several rows of benchmarks 4, and in the soil of the alleged adjacent workings 2 lay a number of pressure sensors 5.

Next, load the model of array 1 to a given simulated depth using pneumocylinders 6.

Then, after loading model 1, simultaneously carry out the planned workings 2.

Before stitching the array with anchor support, the movement of the roof and the array around the workings 2 is fixed with the help of benchmarks 4, as well as the workings 2 installed in the soil, roof and sides of the workings 2 after they are carried out in the direction of the soil - the roof and side - side of the contour frames 7, and the pressure change in the soil the workings in the unloading zone and the reference pressure zone using a series of pressure sensors 5. Thus, during the simulation process, the stage of forming the unloading zones in the workings with fixing the redistribution of rock pressure by measuring the corresponding x displacement.

Next, the roof is stapled with anchor support from anchors 3 with various fixing elements 8.

After these operations, they begin to simulate the movement of the working face taking into account its approach, passage and removal from the measurement site by phased loading of model 1 using pneumocylinders 6 based on data obtained in compliance with similar conditions on models made of equivalent materials, or on-site studies in similar mining -geological and mining conditions, taking into account the time scale, while constantly monitoring the movement of the cross-linked roof and the array around the workings 2 using benchmarks 4, as well as urs openings 2 in the directions of the soil - a roof and side - by-side frames by means of contour 8 and fixed pressure readings of sensors 5 in soil excavation in the unloading zone and the reference pressure zone. Thus, at this stage of the simulation, the step-by-step formation of zones of increased rock pressure and attenuation zones is carried out, up to stabilization of rock pressure.

Thus, the claimed technical result is achieved by the following:

1) Planning the contours, and then simultaneously conducting the same or different sections of the workings under study, followed by stitching their roof with anchor support with various fixing elements. This provides a variety of manifestations of rock pressure recorded during simulation on the model in the workings of various configurations and with various elements for fixing the anchor support;

2) Fixing the roof and array shifts around the workings and changing the pressure in the workings' soil in the unloading zone and the reference pressure zone before stitching the array with anchor support. This provides the initial conditions for modeling in the form of the results of integrated monitoring of the movement of the roof and the array around the workings, as well as the pressure in the soil of the workings, from the time the workings were carried out to the roof strengthening with anchor support;

3) By simulating the movement of the working face taking into account its approach, passage and removal from the measurement site by phased loading of the model on the basis of data obtained in compliance with similar conditions on models of equivalent materials, or field studies in similar mining and geological and mining conditions, taking into account time scale, with constant monitoring of the movement of the stitched roof and the array around the workings, as well as the displacement of the contours of the workings in the directions of the soil - the roof and side - side and fixing the readings s pressure in soil excavation in the unloading zone and the reference pressure zone. This allows you to get the results of comprehensive monitoring of the movement of the roof and the massif around the workings, as well as the pressure in the soil of the workings, in the process of further modeling the state of the rock mass.

Claims (1)

A method of simulating the manifestations of rock pressure in workings on models of equivalent materials, including forming a model of a rock mass from equivalent materials, constructing a workout in it, fastening its roof with anchor support, subsequent predetermined loading of the model of the massif and measuring deformations and displacements in it, characterized in that during molding, the models outline the contours of the same or different sections planned for the simultaneous conduct of the workings under investigation, then, after loading the model to a simulated depth , at the same time, the planned workings out are carried out, before the array is sewn with anchor support, the movement of the roof and the array around the workings and the pressure change in the soil of the workings in the unloading zone and the pressure support zone are fixed, then the roof is stapled with the anchor support with various fastening elements, and after these operations begin to simulate the movement face according to its approach, passage and removal from the place of measurement by phased loading of the model based on data obtained in compliance with conditions such as on models of equivalent materials, or data from field studies in similar mining and geological and mining conditions, taking into account the time scale, while constantly monitoring the movement of the crosslinked roof and the massif around the workings, as well as the displacement of the workings in the soil - roof and side directions - side and record the readings of pressure sensors in the soil of the workings in the unloading zone and the reference pressure zone.

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