RU2214511C1 - Method of support of mine workings (versions) - Google Patents

Abstract

FIELD: mining; applicable in supporting of mine workings with use of leading bolting in mining minerals at large depth. SUBSTANCE: as mining by tunneling machine of rock mass advances, leading working is formed whose cross-section is smaller than design cross- section of driven working but with complete height of the latter. Its length is dependable on conditions of stability of roof exposed surface. Drilled in roof of leading working are boreholes for anchor bolts with cross support located along longitudinal axis of driven working and whose ends are pressed to roof by anchor bolts. One anchor bolt is installed at breakage face at angle to working longitudinal axis according to the first version, and with turn to either side from direction of advance so that its projection on horizontal plane forms angle less than 90 deg to working longitudinal axis, according to the second version. The other anchor bolts are installed to under cross support between earlier installed anchor bolts and parallel to them. According to the second version, they are staggered. Final formation of working cross-section is carried out by alternate performance of two stopes, whose roofs are supported by anchor bolts to under cross support located parallel to working breakage face. Anchor bolts extreme in a row on side of intact rock mass are installed with inclination to horizontal, and remaining anchor bolts in row are installed vertically. After bolting of roofs in stopes, formed on exposed surface of driven working in anchor bolt network serving as permanent support. EFFECT: higher efficiency of support of mine workings due to improvement of their operating conditions by increase of roof stability. 2 cl, 15 dwg

Description

 The invention relates to mining and can be used for attaching mine workings using advanced anchor support in underground mining at great depths.

 There is a method of constructing a mine working, including conducting an advanced working, drilling holes from it in front of the face of the main working and installing anchors in them outside its section, breaking up the rock and revealing the cross section of the main working, while the anchors are installed with a depth of the offset of the main working contour after it conduct and perform their components, while within the cross section of the main development, the components of the anchors are in the form of spacers, and the destruction of the rock is carried out by creating thrust forces in these elements (1).

 The disadvantage of this method is that due to the adopted technology of mining, conditions are created under which the collapse of the roof during operation is possible, since the roof of the leading production before fixing it with composite anchors will be exposed for a long time over its entire surface due to the need to perform a significant amount of work drilling holes, which as a result does not contribute to maintaining an operational state of development.

 There is a known method of securing mine workings, including conducting a leading workout with a cross section smaller than the design cross section of the workings, drilling holes from the leading workings ahead of the face of the workings with a slope from its longitudinal axis, installing anchors followed by completing a section of the workings, while drilling holes for anchors the roof of the mine at the junctions of the vertical walls of the leading mine with the roof, and the mine at the full height of the mine and a length equal to the podviganiya tunnel face per cycle, wherein after transoms driven working section to its circuit design erect frame supports protected by roof bolting with a lag from the tunnel face by a distance determined by the load capacity driven working anchored roof (2).

 However, this method provides only the fastening of the packs of rock layers of the roof of the mine in the areas being acquired and does not at all provide such fastening in the depths of the untouched massif in the areas to be subsequently excavated. The latter can lead to stratification and collapse of the roof rocks of the mine during its operation, because there is no advance hardening of it, which, ultimately, reduces the stability of the roof of the mine and, accordingly, the effectiveness of its fastening.

 The basis of the invention is the task to increase the efficiency of fastening mine workings, especially when carrying them out at great depths.

 The technical result achieved by the implementation of the claimed invention is to improve the operational condition of the mine workings by increasing the stability of the roof by providing faster hardening achieved by strengthening the rocks of the working roof in the depths of the untouched massif by the size of its excavation.

 To achieve the task of the first option in the method of securing the mine workings, including carrying out the leading workout with a cross section smaller than the design cross section of the workout and the full height of the latter, installing anchors with catching the leading workout in the roof and adding the cross section of the working workout to its design contour with subsequent fastening the exposed surface of the roof, according to the invention, the advance production is carried out to a length determined by the stability of the exposed roof, while the pick-up under cores are placed along the longitudinal axis of the excavation, one end of which is connected to a previously installed anchor located within the limits of the excavation, and the anchors for the said grab are installed in such a way that one of them compresses the other end of this grab to the roof and is placed at the bottom of the leading mine at an angle to the longitudinal axis of the excavation in the direction of its movement so that its projection onto the horizontal plane is not less than the installation step of the anchors of the excavation flanges in its longitudinal direction, and the remaining anchors for this intercept are installed in the gap between the previously installed anchor and the anchor located at the bottom of the leading excavation, and parallel to them with a step equal to the installation of anchors along the length of the excavation, while the section of the excavation is carried out in turn, by individual entries, the roof is fastened in each of them with anchors with pickups, which are parallel to the tunnel face of the excavation, and the anchors in the entries, the cat rye extreme in the row from the pristine array mounted with an inclination to the horizontal plane, and the other anchors in said row is set vertically, wherein after zahodok fastening anchor grid form on the exposed surface of the driven working.

To achieve the task according to the second option, in the method of securing the mine workings, which includes conducting the leading workout with a cross section smaller than the design cross section of the workout and the full height of the latter, installing anchors with catching the leading workout in the roof and adding the cross section of the conducted workout to its design loop, followed by fixing the exposed surface of the roof, according to the invention, the leading production is carried out to a length determined by the stability of the exposed roof, while the pickup under a cores are placed along the longitudinal axis of the excavation, one end of which is connected to a previously installed anchor located within the limits of the excavation, and the anchors for the said grab are installed so that one of them presses the other end of this grab to the roof and places it at the bottom of the leading mine in one direction or another of the desired section of the mine working with a turn from the direction of its movement and so that the line of projection of the said anchor on a horizontal plane is ol less than 90 ^o to the longitudinal axis of the excavation, and the remaining anchors for the mentioned grab are installed in the interval between the previously installed anchor and the anchor located at the bottom of the leading mine, in a checkerboard pattern with a step equal to the installation of anchors along the length of the mine, and the angle of inclination which relative to the longitudinal axis of the excavation is identical to the angle of inclination of the anchor installed at the bottom of the leading mine, while the cross section of the mine is carried out alternately by individual entry and, the roof is fastened in each of them with anchors with grabs that are parallel to the tunnel face of the mine, and the anchors in the walkways, which are the last in the row from the side of the untouched massif, are installed with an inclination to the horizontal plane, and the remaining anchors in the mentioned row are installed vertically , in this case, after fixing the tabs form an anchor grid on the exposed surface of the excavation.

 Compared with the prior art, the claimed invention by providing the possibility of advanced hardening of the roof rocks of the mine, achieved by installing anchors in the roof of the mine with the slope along its longitudinal axis, provides early bonding of the rock layers of the roof of the mine in the depth of the intact massif by the size of its excavation, which, in turn, predetermines the conditions for the exclusion of stratification and destruction of the rocks of the roof of the ongoing development when adding its cross section to ide of individual entries, thus preserving the positive properties of the prototype (2).

 This, ultimately, will ensure the stability of the roof of the mine and, accordingly, improve its operational condition, especially in the conditions of mining at great depths.

 This technical result is achieved by a combination of essential features of the proposed method, the proof of which is given below.

 According to the first variant of the proposed method, due to carrying out advance production by a length determined by the stability of the exposed roof, it is possible to exclude its collapse, since the area of exposure of the roof, in which the condition of its stability is met, is determined in advance.

 The location of each grab under the anchors along the longitudinal axis of the excavation, one end of which is connected to a previously installed anchor within the excavation, allows you to provide a connection between the grab and the anchor support of the excavation.

 The installation of anchors under the mentioned pickup in such a way that one of them presses the other end of the pickup to the roof allows preventing the collapse of the exposed roof of the leading production.

 Due to the adopted arrangement of anchors, which consists in installing them at an angle to the longitudinal axis of the excavation in the direction of its movement and so that the size of their projection on the horizontal plane is less than the installation step of the anchors of the excavation, it is possible to ensure that the rock layers of the roof of the excavation are held together in advance the depth of the untouched massif, which is to be subsequently excavated, and, accordingly, ahead of its hardening.

 The installation of the above-mentioned anchors in parallel with each other with a step equal to the step of installing the anchors along the length of the excavation, enhances the above-described positive effect, thus ensuring reliable stability of the roof of the excavation.

 Implementation of completing the cross-section of the mine development in turn by separate runways and fastening the roof in each of them with anchors with grabs located parallel to the tunnel face of the mine and which are extreme in a row on the array side, set with an inclination to the horizontal plane, and the rest vertically, allows you to form an anchor grid on the entire exposed surface of the excavation, thus providing reliable fastening of the latter.

The second variant of the proposed method differs from the first variant in that the anchor located at the bottom of the leading mine is installed in one direction or another of the desired section of the mine to be run with a turn from the direction of its movement and so that the projection line of the said anchor on a horizontal plane makes an angle of less than 90 ^o to the longitudinal axis of the mine. The remaining anchors are installed in the gap between the previously installed anchor and the anchor located at the bottom of the leading mine, in a checkerboard pattern with a step equal to the step of installing the anchors along the length of the mine, and the angle of inclination is identical to the angle of inclination of the anchor installed at the bottom of the leading mine. Such an arrangement of anchors in the leading production will allow, as in the first version, the advanced strengthening of the roof of the conducted production and, as a result, increase its stability.

 It follows from the foregoing that the second option, like the first, allows you to fully implement the technological process of securing the mine working and, accordingly, to achieve the task - to increase the stability of the roof of the mine and, as a result, the effectiveness of its fastening.

 Thus, both versions of the proposed method due to the proposed order of actions and the condition for their implementation can improve the stability of the roof, as the leading output, and ongoing development, as well as to ensure the safety of mining operations when conducting and securing the excavation at great depths.

 The advantage of the first option compared to the second option is that by increasing the fastening zone of the leading workings in the depths of the array, the reliability of fastening the conducted workings and, as a consequence, their operational state, is increased.

 In the second embodiment of the proposed method, an increase in the safety of work is achieved by completing the cross section of the ongoing development by preventing the possibility of delamination and collapsed roof rocks in the bores during their excavation.

 In the present application for the grant of a patent, the requirement of the unity of the invention is met, since both versions of the method are designed for fastening mine workings, they solve one and the same problem - increasing the efficiency of fastening mine workings by increasing the stability of the roof of these workings.

 Thus, the essential features of each of the claimed methods are in a causal relationship with the achieved technical result and from the analysis of the prior art in this field is not obvious, explicitly for a specialist. Therefore, each of the claimed inventions meets the condition of patentability "inventive step".

 In FIG. 1 shows a mine working, the fastening of which is carried out according to the proposed method, plan view, the first option; figure 2 - the same as in figure 1, after completing the first call; figure 3 is the same as in figure 2, after completing the second entry; figure 4 is a section along aa of figure 1; 5 is a section along BB of FIG. 2; figure 6 is a section along bb In figure 3; in Fig.7 is a section along G-D of Fig. 3; in FIG. 8 - mining, the fastening of which is carried out by the proposed method, plan view; second option; in Fig.9 - the same as in Fig. 8, after completing the first call; figure 10 is the same as in figure 9, after completing the second entry; figure 11 is a section along DD DD of figure 8, figure 12 is a section along EE of figure 9; in Fig.13 is a section along FJ of Fig.10; on Fig - cross section along ZZ of Fig. 10; on Fig - anchors installed with a turn relative to the longitudinal axis of the ongoing development, in a perspective view.

 The method of attaching mine workings is implemented as follows in the first embodiment.

 As the mining of the massif by a roadheader, they form the leading mine 1 within the design section of the mine 2.

 In this case, the leading generation 1 is performed to the full height "h" of the conducted generation 2, and its section is taken smaller than the design section of the conducted generation 2, and the length of the leading generation 1 is taken from the condition of the stability of the exposed roof surface.

 Then, from the leading mine 1, bore holes 3 are drilled into its roof under anchors 4 with pickup 5, and grab 5 is placed along the longitudinal axis of the mine 2, one end of which is connected to the previously installed anchor 4 located within the mine 2, and its second end presses another anchor 4 to the roof. The latter is installed at the face 6 of the leading generation 1 at an angle α to the longitudinal axis of the conducted generation 2 in the direction of its movement and so that the value of its projection "a" on the horizontal plane is at least a step a "l" of the installation of the anchors of the ongoing production 2. The specific values of the parameters "a" and "l" are calculated on the basis of regulatory documents, for example, "Instructions for the calculation and use of anchor support in coal mines of Russia", approved by the head of the Committee on Coal Industry under the Ministry of Fuel and Energy of the Russian Federation 04/12/2000, St. Petersburg, 2000

 Then, after the construction of anchor 4 at the face 6 of the leading mine 1, the remaining anchors 4, at least two, are installed under the catch 5 in the gap between the said anchor 4 and the previously installed anchor 4 and parallel to them with a step equal to the step "l" of installing the anchors along the length of workings 2. Such an arrangement of anchors 4 for grab 5 predetermines the fastening of the rock layers of the roof of the working mine 1 deep in the array 7 by the size of its excavation and, accordingly, outstripping its hardening, which creates favorable conditions Via stability by a factor of roofing with transoms driven working section 2 subsequently to 8 portions.

 After the construction of anchors 4 for pickup 5 in the roof of the leading mine 1, the tunneling machine completes the cross-section of the mine 2 to its design value by alternately performing two runs 9 and 10. For this, first they form the first run 9, the fastening of which is carried out by anchors 11 and 12 for pickups 13 arranged parallel to the face of the mine 2. The anchors 11 are extreme in a row from the side of the untouched array 14 and they are installed with an inclination to the horizontal plane, and the anchors 12 are mentioned chickpea row set vertically. After this, the second run 10 is carried out, the fastening of which is carried out by anchors 11 and 12, similarly to the fastening of the roof of the mine 2 with anchors 11 and 12 in the first run 9. As a result, after the harnesses 9 and 10 are fixed on the exposed surface of the mine 2, an anchor net is formed that acts as a permanent support .

A distinctive feature of the second variant of the method of fastening the mine workings depicted in Figs. 8-15 is that the anchor 15 installed in the hole 16 at the face 6 of the leading mine 1 is placed on one side or the other of the section to be taken of the mine 2 with a turn from the direction its movement and so that the line 17 of the projection of the said anchor on a horizontal plane makes an angle β to the longitudinal axis of the workout 2 and which is less than 90 ^o (Fig. 15).

 In this case, the remaining anchors 15 are installed under the grab 5 in the interval between the previously installed anchor 15 and the anchor 15 located at the face 6 of the leading generation 1, in a checkerboard pattern with a step equal to the step "l" of installing the anchors along the length of the excavation 2, and the inclination angle the said anchors relative to the longitudinal axis of the conducted excavation 2 is identical to the angle of inclination of the anchor 15, installed at the face 6 of the leading output 1.

 The procedure for performing actions to add the cross section of the ongoing development 2 (Fig. 9, 10, 14) is similar to the procedure for performing these actions in the first embodiment.

 Thus, due to the early bonding of the rock layers of the roof of the excavation, the anticipatory hardening of its roof is achieved, and hence its stability is increased and, accordingly, the fastening efficiency, which ensures the working state of the mine during its operation, i.e. a solution to the problem is achieved.

Sources of information:
1. Copyright certificate of the USSR 1684510, cl. E 21 D 20/00, 1989.

 2. RF patent 2042032, cl. E 21 D 20/00, 1992 (prototype).

Claims (2)

 1. The method of securing the mine workings, including carrying out the leading workout with a cross section smaller than the design cross section of the workout and the full height of the latter, installing anchors with catching the leading workout in the roof and adjusting the cross section of the workout to its design contour with subsequent fastening of the exposed roof surface, characterized in that the leading production is carried out to a length determined by the stability of the exposed roof, while the pickup under the anchors is placed along the longitudinal axis of the conducted working ki, one end of which is connected to a previously installed anchor located within the mine, whereby the anchors for said grab are installed in such a way that one of them presses the other end of this grab to the roof and is placed at the bottom of the leading mine at an angle to the longitudinal axis of the the workings in the direction of its movement so that the value of its projection onto the horizontal plane is not less than the step of installing the anchors of the workings in its longitudinal direction, and the remaining anchors under this pick-up is set in the gap between the previously installed anchor and the anchor located at the bottom of the leading mine, and in parallel with it, with a step equal to the step of installing the anchors along the length of the mine, while the section of the mine is carried out alternately with separate runways, the roof is fixed in each of them produce anchors with pickups that are parallel to the tunnel face of the mine, and anchors in the entries, which are extreme in a row from the side of the untouched massif, are set pour in with an inclination to the horizontal plane, and the remaining anchors in the aforementioned row are installed vertically, while after fixing the tabs, they form an anchor grid on the exposed surface of the excavation. 2. The method of securing the mine workings, including conducting the leading workout with a cross section smaller than the design cross section of the workout and the full height of the latter, installing anchors with catching the leading workout in the roof and adjusting the cross section of the workout to its design contour with subsequent fastening of the exposed roof surface, characterized in that the leading production is carried out to a length determined by the stability of the exposed roof, while the pickup under the anchors is placed along the longitudinal axis of the conducted working ki, one end of which is connected to a previously installed anchor located within the limits of the mine, whereby the anchors for the said pick-up are installed in such a way that one of them presses the other end of this pick-up to the roof and places it at the bottom of the leading work in one direction or another driven working section to steer the direction of its podviganiya and so that the projections of said anchor line to the horizontal plane forms an angle of less than 90 ^o to the longitudinal axis of the driven working and remained Needed anchors for said pick-up are installed in the interval between the previously installed anchor and the anchor located at the bottom of the leading mine, in a checkerboard pattern with a step equal to the pitch of the installation of anchors along the length of the mine, the angle of inclination relative to the longitudinal axis of the mine is identical to the angle of inclination of the anchor at the face of the leading production, while the cross-section of the conducted development is carried out in turn by separate runs, the roof is fastened in each of them with anchors with pickups that are parallel to the tunnel face of the mine, whereby the anchors in the openings, which are extreme in the row from the side of the untouched massif, are installed with an inclination to the horizontal plane, and the remaining anchors in the mentioned row are installed vertically, while after fixing the openings form an anchor grid on exposed surface of the mine.

Images