RU2034155C1 - Method for installation of support of mine working and support for its realization - Google Patents

Abstract

FIELD: mining. SUBSTANCE: mine working support has roofing, ledger, prop, girder and thrust bearing, yielding units, sockets of joint of girder and thrust bearing with prop, joints of girders with one another. Girders are made of T-member with wall upward and sockets consisting of retainer and beads located on T-member flange which has cutout to receive special section bottom plate. Cutout faces working space. Installed between flange and retainer is bottom plate of prop end of special section, beads are adjacent to special section outer walls resting on berms left for the purpose from beads to cutout edges. Cutout extends to retainer whose thickness equals gas between bottom plates of connected special sections for connections to prop by overlapping lower bearing member of frame without removal of girder. EFFECT: higher efficiency. 4 cl, 12 dwg

Description

 The invention relates to mining and can be used for fastening underground workings for various purposes, service life, shape and size of the cross section, mainly frame support in conditions where a ductile metal support is used, both arched and enclosed.

 Known supports from a special profile, including load-bearing elements and connecting nodes with locks (M.N. Geleskul, V.N. Karetnikov. A guide to fastening capital and preparatory workings. M. Nedra, 1982, p. 49-95).

 However, the known supports have a narrow scope according to their purpose and the frames do not have the property of technological transformation due to the elements of which they are made, and depending on the geological and production conditions cannot be changed accordingly during the construction and operation of the workings. Therefore, the dismantling and installation of another lining is often required. Such a redevelopment is costly and also unsafe.

 Known metal arch closed lining (AS USSR N 644954, class E 21 D 11/24, 1979), including the top, racks, special profile, knots of compliance and knots connecting the bench with the rack. The design stipulates that, following the slaughter, a three-link compliant arch with vertical uprights is erected in the excavation, and when soil heaving develops, an erected lay is attached, connected to the upright by a node in the form of an emphasis, consisting of two rectangular and one profile planks, pressed by a U-shaped bracket with with nuts, the butt rests against one rectangular bar with the end, and the profile bar with its cut covers the special profile from the side of its bottom.

 However, the well-known lining lacks supporting elements against the pressing of the uprights into weak soil, especially before laying the bed. It has no lap with a stand, is attached with only one threaded collar to a straight section of the stand, therefore it can be easily turned out by sweeping soil or quickly shifted upwards almost without resistance. It is not possible to mount other frames from standardized elements, including with an increased reserve of compliance and higher bearing capacity. The structural capabilities of the lining allow only the conversion of a three-link arch into a closed one, so the scope of its application is narrow, insufficient for the diverse geological and production conditions of underground workings.

 The purpose of the invention is the expansion of the ability to convert the lining.

 The goal is achieved as follows.

 For the lining, a set of supporting elements was made from a special profile located at the bottom to the rocks with the maximum unification of these elements, so that they provide the ability to mount and convert a number of mounting frames: a three-link arch with curved racks into a five-link arch of a horseshoe shape, and it into six- or seven-link elliptical frames, including with or without reinforcement posts. The kit includes elements that are: the upper, which can serve as a solid bed; reclining, which serves as details of the strengthening of the upper and is half of the composite bed, as well as half-racks of two types, including curved and straight.

 Supporting elements (runs and thrusts) are provided.

 Run under the lower ends of racks (half racks) is a series of sections of T-bars rolled in series, located with its shelf down and wall up. On it, special nests are made along, according to the pitch, under the end face of the special profile of the supporting rack (half-rack). The socket, as it were, draws up the place where the special profile rests with its cross section into the shelf of the brand, for which a clamp is attached to it from a segment of the strip so that the bottom of the special profile is placed between it and the wall of the brand, in addition, the sides that are not connected with the clamp are attached to the shelf and are adjacent to the side walls of the special profile outside it. At the same time, a notch was made in this shelf of the brand, one side of which runs along the retainer, and the other two parallel to the sides at a distance equal to the thickness of the profile walls, i.e. with the formation of berms, sufficient to stand on them the walls of the special profile of the rack (half-rack). This cut-out allows for the placement of the special profile with the open part inside the mine to insert, to attach to the lower end of one half-stand, another (lower) half-stand or to the stand, lying (half-lying), without removing the run. The latch does not interfere with the connection, since its thickness is adopted taking into account the gap between the bottoms of the overlapping special profiles.

 The thrust bearing has the form of a plate with a stiffening rib and a side in the shape of the inner contour of the special profile, which are located on one side of it. The smooth side of the thrust bearing is laid on the working soil. The stiffener is directed up and turned with its plane into the working. Therefore, the thrust bearing can be installed not only under the rack, but also under the run, when the thrust edge is included in the notch made in the shelf of the brand, and its edge abuts against the rib. The plate increases the area of the support run. The thrust bearing reinforces the run, especially taking into account the presence of a cut in the shelf of the brand, with very weak soil. The thrust bearing is removed by moving it into a hole in the arch plane.

 The runs are connected to each other end-to-end between the arches by means of a U-shaped lining, which is worn on the wall of the brand to its shelf and equipped with two or four wedges with coaxial holes, under which holes are also made in the wall of the brand at the ends of the runs. The wedge is fixed by means of a volumetric springy wire bracket, one end of which is wound behind the lining, and then inserted into the eye of each wedge and, upon exiting the eye of the last wedge, the second end is also wound. In relatively favorable conditions, runs without overlapping ends are allowed so that during subsequent work to improve production with the transformation of the lining, the end of the previous run section is held at the beginning of the subsequent rock excavation in the soil.

 The construction of the proposed lining is carried out when installing 3-link arches with half-racks on the girders with or without thrust bearings under them. And 5-link arches may differ in that each rack is pre-connected from two such half-racks with locks on the lap, or such arches are erected in stages. In the latter case, a ledge is formed in the excavation soil, above which the 3-link arches are kept on the girders (if used, the thrusters are tucked down on the ledge soil), the runs are laid so that the nests are in the planes of the arches, put half-racks, connect them to the previously installed arches compliant knot. And, finally, under the 5-link arches held by the girders, they form the next ledge (foundation pit) into which the beds (solid or composite of half-beds) are laid, which are connected similarly to the lower ends of the uprights, and as a result an elliptical roof support is obtained. Runs are removed or left on the lining.

 According to German patent N 530813, class. E 21 D 11/26, 5 C 11/26, 1931, the supporting elements of the rail support are connected with the ends to the rail runs by means of twin corners. The elements, in view of the emphasis on the rail, cannot overlap with each other to obtain a compliant assembly. In addition, the run does not serve as a supporting element of the known lining.

 The claimed technical solution provides for the possibility of using the supporting parts of only three types to erect a frame support of three structures, including with a phased construction. For development with a short service life, in particular, exploratory, the most appropriate is the 3-link support, the cross section of which is small, and with weak soil a special role is played by special runs run longitudinally under the racks. If necessary, development can be later reconstructed with the conversion of a 3-link lining into a 5-link without replacing the previously installed lining, with elongation of the racks. If necessary under the conditions, then the development takes place immediately with a 5-link support, so that there is a reserve of compliance. Runs under the racks of 5-link arches provide their transformation into an elliptical lining without rearrangement. With the help of thrust bearings, indentation or deformation of runs in particularly weak rocks is excluded. The phased construction of 3-link, 5-link arched and elliptical roof supports following the slaughter of an inferior shape makes it possible to construct large cross-sections with less material consumption and increased safety. As a result, by expanding the production capabilities of the lining, the maintenance-free maintenance of the workings in various mining-geological and mining-technical conditions is achieved, which ensures a significant positive effect.

 In FIG. 1 shows a diagram of the lining with the stages of its transformation in the development, a longitudinal section; in FIG. 2, section AA in FIG. 1; in FIG. 3 section BB in FIG. 1; in FIG. 4, section BB in FIG. 1; in FIG. 5 diagram of the device run; in FIG. 6 diagram of the thrust bearing, top view; in FIG. 7 section GG in figure 2; in FIG. 8 view D in FIG. 3; in FIG. 9 section EE in FIG. 8; in FIG. 10 is a section FJ in FIG. 8; in FIG. 11 connection diagram of runs with each other; in FIG. 12 is a section 3 through 3 of FIG. eleven.

 The mountain lining consists of separate frames installed in the excavation open and connected to each other by interframe communication. The frame includes unified curvilinear bearing elements made of a special profile located on the bottom towards the rocks, and the open part (flanges) inside the mine. There are three main elements: the top 1, half-stand 2, half-bottom 3, in addition, if necessary, the middle stand of two straight sections of the special profile (not shown) can be installed in the frame. Using half-beds 3 they get reinforced upper, fastening all three special profiles with clamp 4, which is also used for interframe communication. A three-link compliant arch consists of an upper 1 (with or without reinforcing parts (3)) and two half-posts 2 connected by an overlap with a lock 5, which are installed on the girders 7, incl. with especially weak soil and a heavy load on the lining with 8 thrust bearings under them. The five-link horseshoe-shaped arch contains the aforementioned load-bearing elements and an additional two half-racks 2, forming composite racks with an overlap, connected, in addition to the lock 5, by a second lock 6, which are also mounted on the similar supporting elements of the girders 7 and thrust bearings 8. The elliptical frame includes, in addition to the load-bearing elements 5 -articular arch, a bed of two half beds 3 connected to each other and with uprights 2 compliant nodes with locks 5. The run is made of rolled T-profiles and is located on the ground with shelf 9, and wall 10 is directed up. On the run, according to the step of the arches, the nests for the ends of the racks are designed, in which the special profile is turned by the flanges to the excavation. The bottom of the outer surface is adjacent to the wall 10, and from the inside to the latch 11 in the form of a strip of strip attached to the shelf 9, at a distance from the wall 10 to accommodate the bottom (the thickness of the latch is taken into account the size of the gap between the bottoms of special profiles when connecting them lap) . The special profile of the rack is in contact with the sides 12 on the flange 9, in which a cutout 13 is made in the form of a special profile, bordering the latch on one side, and the other two sides are parallel to the sides 12 leaving the berm 14, which also faces the end of the special profile. The thrust bearing 8 includes a plate 15, a stiffening rib 16 and side plates 17 directed upward, and the rib 16 is located with its plane in the direction of the mine. The sides 17 when installing the thrust bearing under the rack are included in the special profile, and when installed under the run in the cutout 13 in the shelf 9. Thanks to this device, the run and thrust and their relative position are easily removed during the transformation of the support frames, and the run not only supports the console arch stand, but and ensures the attachment to it of an overlap of another supporting element (lower half-rack 2 or half-bed 3). The girders 7 are connected sequentially butt to one another by means of a U-shaped lining 18 worn on their walls 10. Wedges 19 are inserted into the coaxial holes of the lining and the walls of adjacent girders 19. A steel wire bracket 21 is passed into their eyes 20, which is held by its ends 22 wound behind overlay.

 The lining is erected as follows.

 When fastening with 3-link arches, runs 7 with a thrust bearing 8 (or without them depending on conditions) are laid on the soil. Then install half-racks 2 so that the lower ends are in the nests. The upper mount 1, fastened with reinforcing parts (3), with a clamp 4, to which an interframe coupler is attached, is lifted by the installer. At the same time, the compliant nodes are connected by locks 5. After that, the remaining operations (alignment, wedging, tightening, knocking) are performed, and then the following arches are erected with a preliminary extension of the runs. At their junction they put on a lining 18 on the walls 10, wedges 19 are driven from the working side into the coaxial holes, and the missed bracket 21 is inserted into the eyes 20 with the ends 22 for the lining on its reverse side. In order to convert this support to a 5-link one, following the soil face, where the arches are kept on the runs 7, remove the glides 8 from under them and lay the runs so that the nests under the lower half-posts coincide with the planes of the arches. The lower and upper half-racks 2 are lapped and fastened with two locks 8 and 9 in each node. After the formation of 5-link arches in the excavation is more than the length of the run, it is either removed in the order opposite to elongation, or left, if necessary, to increase the reliability of interframe communication over the ductility nodes on the composite racks of arch supports with a high height. Subsequently, conversion to a closed elliptical lining is carried out in a similar way, only the ledge in the soil is made out not flat, but in the form of a foundation pit for a bed, which is mounted from half beds 3 with two locks 5, and connect them to the lower ends of the racks of 5-link arches with such a lock.

 The support of each type works in a compliant mode within the design value, which increases from a 3-link arch to elliptical frames, and the latter take an annular shape at the end of their service life.

 To remove the lining, the locks are removed and the joints of the supporting elements are disconnected, starting from the upper ductility nodes. Elements are sent for reuse (if necessary, with partial restoration, mainly of radius).

 The use of the claimed technical solution will ensure high efficiency of geological exploration and mining and preparatory work, due to the fact that: the supply of mining enterprises with fixing materials will be significantly improved due to the unification of the support elements, due to which 3-and 5-link arches will be erected from the three elements elliptical 6-7-link lining, incl. with reinforced upper; the cost of lining will decrease due to an increase in labor productivity in its manufacture with lower costs for the conversion of technological equipment; it will be possible to reduce the number of miners for the repair of mine workings, as their unproductive reinforcement is eliminated; due to girders and thrusts, open arches are not pressed into the soil under increased mountain pressure; runs with their design provide the implementation of the proposed method for the transformation of the lining, incl. in workings, if necessary, of considerable size, especially in height, with a margin of compliance for the entire service life; using girders (and thrust bearings), the use of lining is facilitated to improve existing workings, when operating conditions require the erection of frames of both a greater height and a generally closed structure so that maintenance in working condition does not require repair and rebuilding with the replacement of the frames of the erected lining; working conditions and safety are improved due to the elimination of the operations to dismantle the lining installed during sinking, and the exposure of the roof of the workings; the economic effect as a result of eliminating the removal of the arch lining when it is replaced with a new lining in accordance with the conditions of excavation of the excavation or repair, as well as related processes.

 In the mines of D. Vostok, the support for the prototype is not used during the conduct due to its inconsistency with the geological conditions. Maintenance due to compliance (reduction of cross-section) of the annular lining causes annual redevelopment.

Claims (4)

 1. A method of erecting a lining of a mine working, including installing bedding, racks, tops and girders connected to each other and elements of the lining, characterized in that, in order to increase the efficiency of the use of the lining during mining, the runs are initially laid on the soil of the excavation, installed racks are connected to them and racks are connected to the upper with the formation of three-link arches, and after the formation of a ledge, runs are also laid on its soil, on which additional racks are placed and connected previously defined to form a five-bar arches and then making the expansion section to the design set sleepers, which connect with additional struts to form a closed support frame, which runs towards the three- and five-link arches mounted ahead and sleepers with a lag.  2. Support for the construction of a mine, including racks articulated to each other with a gap, upper frames and girders and interconnected girders installed in the joints of racks with additional racks and girders, characterized in that the girders are made of a brand whose shelves are facing inward the workings at the joints of the runs with the lining elements have cutouts in the form of a special profile, and the lining is equipped with thrust bearings installed under the bases of the racks, clamps for placement of ends of the bottoms between them and the walls etsprofiley lining and mounted parallel recesses flanges, wherein the flanges away from the notches is equal to the thickness of the wall lining special profile and a thickness equal to the gap between the clamps and studs verhnyakami.  3. The lining according to claim 2, characterized in that the thrust bearings are made in the form of plates having inward stiffening ribs and in contact with the inner surfaces of the walls of the special profiles of the sides. 4. Hold on PP. 2 and 3, characterized in that through the grooves are made in the walls of the Tauri of adjacent runs, and the runs are installed end-to-end to each other and are interconnected by means of T-shirts mounted on the wall

-shaped pads with through grooves and wedges passed into the through grooves of the pads and runs.

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