RU2175062C2 - Method of advanced anchoring of roof of edge part of seam of stope - Google Patents

Abstract

FIELD: mining industry, working of coal seams with poor roof. SUBSTANCE: method of advanced anchoring includes drilling of parallel holes in roof of stope at point of contact with seam from development working fixed with frame support with advance relative to stope, at angle to stope and to depth of zone of reduced stresses along stope, insertion of flexible members of support into holes and their tension. Tension is conducted by anchoring of each end of members in face of hole with the aid of hardening composition. Their opposite ends located in hole-heads are attached to roof of stope by anchors with subsequent reinforcement by sections of powered support. Later while stoping is conducted released ends are clamped by fallen blocks. EFFECT: provision for tension makes it possible to enhance stability of roof of stope in its edge part including connection section. 1 cl, 4 dwg

Description

 The invention relates to mining and can be used in the development of coal seams with an unstable roof, prone to dumping.

 A known method of securing the interface between the lava and adjacent sections of the mine, including the placement along the mine in the zones of the front and rear support pressure of a number of lining sections, moving them in the direction of movement of the lava, and the roof in the said zones is fixed with a composite beam installed on the lining sections, while leaving the working face at a distance multiple of the length of the element of the composite beam, its end element is dismantled in the zone of the back reference pressure, transferred to the zone of the front reference pressure and installed over the support sections that are free from the composite beam with its subsequent expansion into the roof, and the support sections are moved sequentially, respectively, until the front group of sections comes out from under the attached end element and before the support sections released from the end element come under the next element of the composite beam (1).

 However, this method does not prevent the separation of the rocks of the roof of the mine working in the front zone of the reference pressure, and therefore it is possible dumping with unstable roofs.

 The closest in technical essence and the achieved technical result is the method of advancing the roof of the treatment mine, including drilling in the bottom of the wells in the coal mass at the top of the seam, advancing the excavation of coal by the combine in the direction from the lower drift to the top, introducing elements of the supporting lining in the mine coal strip, while the wells are drilled parallel to the face line within each strip taken out by the combine, the elements of the leading lining are pulled and fixed to erhnem and lower roadway and recesses as said elements advanced coal lining behind the combine reinforcing downhole bolting. As elements of the leading lining, ropes (2) are used.

 The main disadvantage of this method is the insufficient reliability of maintaining the roof in the face between the parallel elements of the leading lining, since when the strip of coal is removed after passing another well, the cantilever formed in the rocks of the roof of the formation, where there is no reinforcement with elements of the leading lining, is subject to delamination and collapse . For the same reason, the roof of the edge of the formation and, accordingly, at the interface between the working face and the preparatory mine cannot be supported, and the working space of the mine is protected from collapsed rocks.

 Another disadvantage is the difficulty to withstand the direction of well drilling (parallel to the face), which reduces the reliability of maintaining the roof in the non-cavity space of the face.

 In addition, the implementation of this method is associated with significant costs for the construction of the leading roof support from the ropes, since it is necessary to use additional equipment (sections of the roof support, jacks) to tension these ropes. Moreover, the presence of additional equipment at the interface section of the working face with the output reduces its working space, which reduces the safety of work in this area.

 These disadvantages do not allow the effective use of this method, especially when developing formations with an unstable roof.

 The basis of the invention is the task to ensure the possibility of effective fastening of the roof of the mine working in the edge of the reservoir adjacent to the area of the preparatory development located within the front zone of the reference pressure, including the interface, by increasing its stability by maintaining the tension of the flexible elements of the supporting lining, starting from erecting it to the hanging of their free ends in the worked out space, as well as reduce the cost of erecting an advanced lining.

 The problem is solved due to the fact that in the method of advancing the roof fastening of the edge part of the formation working bed, including drilling parallel wells in the bottom of the working face at the contact with the formation from the preparatory work secured by the frame support, introducing coal ahead of the excavator, introducing flexible elements leading in the wells lining and their tension, followed by reinforcement sections mechanized lining, according to the invention, drilling is carried out with an advance equal to at least the length of the zone reference pressure, and with a step of at least a step of installing the frames of the lining of the preparatory mine, and also at an angle to the working face and to the depth of the zone of low stress along the working face, the flexible elements of the leading support are tensioned by attaching each end of them to the bottom of the wells using hardening composition, and their opposite ends located at the mouths of the wells, at least two are connected to each other and fixed to the roof of the excavation by means of an anchor, thus forming a leading section about fastening the roof of the edge of the formation layer, while the coal is being excavated, the flexible elements of the leading lining are reinforced so that the section of the mechanized lining, over which the bottom ends of these elements are alternately, successively presses each of them after the said section is moved to the roof to the step of moving, and all subsequent overlapping of the lining sections, oriented towards the preparatory development, press the flexible elements of the leading lining to the roof on their parts for within each removable strip of coal, with subsequent release from exposure to these overlappings and dropping from the latter into a worked out space in which the freed ends of the flexible elements are clamped by blocks of collapsed roof rocks, while maintaining the tension of the flexible elements for the period of removal of the pressure from the roof supports during displacement after the extraction of another strip of coal.

 Moreover, the length of the leading fastening section of the roof of the edge of the reservoir of the mine workings take at least 2-6 steps of installing the frames of the lining of the preparatory mine.

 In comparison with the prior art, the inventive method will reliably and efficiently maintain the roof of both the interface of the working face with the production, and the adjacent area of the production ahead of the working face within the zone of the front reference pressure by increasing its stability in the edge of the formation.

 This technical result is achieved by the above features, interconnected with the formation of a stable combination of them.

 Let us prove the significance of the distinguishing features.

 One of the essential features of the proposed method is leading relative to the stope drilling of wells from the preparatory development, equal to at least the length of the zone of the front reference pressure and which ensures the operational state of the wells while maintaining their design parameters. The latter circumstance will allow you to quickly introduce into the wells the flexible elements of the leading lining and fixing them in the bottomhole part of these wells, which generally improves the quality of the construction of the leading lining and maintains the tension of the flexible elements for all times of their use.

 Moreover, the drilling of wells with an interval from each other equal to at least the step of installing the support lining of the preparatory excavation prevents the destruction of the formation roof rocks into small fractions and, accordingly, reduces the possibility of dumping at the interface of the production face.

 In addition, by drilling wells at an angle to the face and to the depth of the zone of reduced stress along the face, followed by the introduction of flexible elements that act as leading lining, they form a section of the leading fastening of the roof of the edge of the formation, which has increased stability compared to the prototype (2 ) by achieving blocking of crushed rocks.

 The tension of the flexible elements in the wells due to the fixing of one end in the bottom of the wells with the help of hardening compounds, and their opposite ends - with the help of anchors to the roof of the excavation will eliminate the use of additional bulky equipment, as provided by the prototype (2).

 The flexible elements of the leading lining are reinforced with overlapping sections of the mechanized lining, along the entire length of each of them, but in separate sections within each removable strip of coal and sequentially, starting from the bottomhole end of the flexible element with subsequent interaction on the part of its length with each overlapping of these sections, as their movement, up to release from the effects of the latter and drooping into the worked out space, where the free end of the flexible element is clamped by blocks of collapsed rocks, thus maintaining the tension of this element.

 From this it follows that with the successive movement of the lining sections at the time of removal of the pressure from them, there is no sagging of individual sections of the flexible elements over the movable lining sections.

 The result is a constant tension of each flexible element of the leading lining along its entire length as the coal strip is removed, thereby preventing the separation of roof rocks both in the edge of the formation and along the length of the zone of low stress along the face.

 Due to the preservation of the tension of the flexible elements of the leading lining, starting from its erection with the subsequent exit to the worked out space, an increase in the roof stability at the interface between the working face and the working out is achieved, as well as the protection of the working space from collapse of the working rocks within the front reference pressure zone.

 In addition, the cost of erecting an advanced lining is negligible compared to the prototype (2) and is associated only with the use of hardening composition and anchors for fixing flexible elements in the well and ensuring their tension.

 The difference of the proposed method is also that the length of the leading fastening section is taken at least 2-6 steps of installing the support lining frames of the preparatory mine, depending on the daily movement of the face.

 Thus, the set of essential features characterizing the essence of the invention enables the most efficient fastening of the mine working roof in the edge part of the formation, including the interface, by increasing its stability by maintaining the tension of the flexible elements of the leading support for the entire period of use of each of them, rock destruction roofing on the site of advanced fastening to larger fractions and the use of simple technical means for implementing the proposed method, I allow s to reduce costs for the construction of advanced lining. All these described technical effects can improve the efficiency of the proposed method, especially when developing formations with an unstable roof.

 From the above it follows that the essential features of the claimed invention are causally related to the achieved technical result and from the analysis of the prior art in this field are not obvious to a specialist, which characterizes the inventive step of the claimed technical solution.

 In FIG. 1 shows the working face and the adjacent area of the preparatory development at the interface in front of the interface; in FIG. 2 is a section along AA of FIG. 1; in FIG. 3 is a section along BB of FIG. 1; in FIG. 4 - node I in FIG. 2.

 The method of advancing the fastening of the roof of the edge of the reservoir of the mine working out is carried out in the following way.

Ahead of the interface from the preparatory mine 1 with an advance relative to the mine, equal to at least the length l _{1 of} the front reference pressure zone, parallel wells 2 are drilled in the roof of the mine at the contact with the formation 3 and at an angle α to the face 4. Well 2 step h equal to not less than the step of installing the frames of the support 5 of generation 1, and to a depth l _{2 of the} zone of low stress along the face 4. The length L of the area of development 1 from which wells 2 are drilled is taken equal to 2-6 steps of installing the frames of the support 5, dependent on suto the full movement of the face 4.

 Then, flexible elements 6 of the leading lining are introduced into the drilled wells 2 and they are tensioned to a working state. For this, each end 7 of the flexible element 6 is fixed in the bottom of the drilled well 2 using a hardening composition, and the opposite ends 8 of the flexible elements 6 located in the mouths of the wells 2 are connected at least in two and fixed to the roof 9 of the excavation 1 by means of an anchor 10.

 As a result, after tensioning the flexible elements 6 to the approach of the face line 4, a leading fastening section of the edge of the formation is formed, the length of which is at least 2-6 steps of installing the roof support frames 5 and which causes block collapse of the roof rocks in this area during coal excavation.

Moreover, as the next strip of coal is excavated by the combine, the mechanized lining section 11 is moved to a new working position. As a result, the flexible elements 6 reinforce the overlap of the lining sections 11 when they enter the treatment area at the length of the working face 4, corresponding to the length l _{2 of the} zone of reduced stresses along this face.

 At the same time, the overlap of that section of the powered roof support 11, which is located at the boundary of the zone of reduced stresses along the face 4 and above which the bottom ends 7 of the flexible elements 6 are alternately (as the face 4 moves), each of them successively presses to the roof after this support sections 11 per step of movement. All subsequent overlapping sections of the lining 11, oriented towards the preparatory development 1, press each flexible element 6 to the roof on a part of its length within each step of moving these sections. As soon as each downhole end 7 of the flexible elements is released from contact with the upper surface of the overlap of the support sections 11, it hangs from it into the worked out space 12 of the working face 3.

 Since the forward fastening of the roof of the edge of the sewage treatment formation causes block collapse of the roof rocks subsequently during cleaning, then after each bottom end 7 of the flexible element 6 is released from the impact of the overlapping of the support section 11 and hanging from the latter into the worked out space, it is clamped by collapsed blocks rocks, thus ensuring the preservation of the tension of the flexible elements 6 for the period of removal of the decay of the sections of the lining 11 during their movement to a new working position.

 The next section of the leading fastening is prepared simultaneously with the extraction of coal.

 Ensuring the tension of the flexible elements 6, from the moment of their installation to their exit into the worked-out space, makes it possible to increase the stability of the working mine roof in its edge part of the formation, as well as by combining the working face with the preparatory mine 1 by eliminating the destruction of roof rocks into small fractions under the influence of the forces of rock pressure.

 Thus, the use of the proposed method will reliably and effectively maintain the roof of the mine working both at the interface and in the adjacent area of the mine in the area of the front reference pressure.

Sources of information taken into account when drawing up the description of the invention
1. USSR author's certificate N 1679036, cl. E 21 D 11/36, 1988

 2. Copyright certificate of the USSR N 1249163, E 21 D 9/00, 1985 (prototype).

Claims (2)

 1. The method of advanced fastening of the roof of the edge of the formation bed, including drilling parallel wells in the bottom of the working face at the contact with the formation from the preparatory mine, secured with a frame support, advancing the coal excavation with a combine, introducing flexible elements of the leading support and their tension into the wells, followed by reinforcement mechanized lining sections, characterized in that the drilling of wells is carried out ahead of the face, equal to at least the length of the zone of the front reference pressure and with a step of at least a step of installing the frames of the lining of the preparatory mine, as well as at an angle to the working face and to the depth of the zone of low stress along the working face, and the tension of the flexible elements of the leading support is carried out by fixing each end of them into the bottom of the well by means of a hardening composition and their opposite ends located at the mouths of the wells, at least two connections between each other and are fixed to the roof of the mine by means of an anchor, thus forming a section of the leading fastening cr the oval of the edge of the formation of the treatment mine, while the coal is being excavated, the flexible elements of the leading lining are reinforced so that the section of the mechanized lining, over which the bottom ends of these elements are alternately, successively presses each of them after the said section is moved a step shifts, and all subsequent overlappings of the lining sections, oriented towards the preparatory development, press the flexible elements of the leading lining to the roof on the part of their length to the limit each removable strip of coal with subsequent release from exposure to these overlappings and hanging from the latter into a mined space in which the freed ends of the flexible elements are clamped by blocks of collapsed roof rocks, while maintaining the tension of the flexible elements for the period of removal of the pressure from the support sections during their movement after excavation another strip of coal.  2. The method according to p. 1, characterized in that the length of the leading fastening section of the roof of the edge of the reservoir of the treatment mine take at least 2 to 6 steps of installing the support frames of the preparatory mine.

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