RU2487242C1 - Method for construction and support of mines under complicated mining and geological conditions - Google Patents

Abstract

FIELD: mining.SUBSTANCE: method for construction and support of mines under complicated mining and geological conditions includes formation of an unloading cavity in front of a bottomhole with irreducible advancing, introduction of two rows of pneumatic balloons with a shield into the unloading cavity, lifting of the shield to the level of the mine roof, creation of a thrust between the cavity roof and pneumatic balloons by means of compressed air supply into pneumatic balloons, extraction of rock under the shield by the pitch of permanent support frames installation, and installation of stands and the beam of the permanent support under the shield. At the same time an additional unloading cavity is developed in the mine sides, and installation of the permanent support beam is carried out between rows of pneumatic balloons from the cavity of the mine arranged in the sides. Afterwards the permanent support stands under the shield are fixed to the support beams, the thrust is removed from the pneumatic balloons of the first row by means of exhaust of compressed air, and pneumatic balloons are extracted into the fixed part of the mine. Rock under the shield is removed by the pitch of permanent support frames installation, the thrust is removed from the pneumatic balloons of the second row by means of exhaust of compressed air, and pneumatic balloons are extracted into the fixed part of the mine. Then the unloading cavity is constructed to the initial depth, and operations are repeated.EFFECT: higher efficiency and safety of construction and support of developing entries under complicated mining and geological conditions.7 dwg

Description

The invention relates to the mining industry and can be used for holding and securing preparatory workings in difficult mining and geological conditions.

A known method of securing mine workings, including installing the main support of a technologically defined profile, hauling the roof and anchoring the intumescent rocks, moreover, in the opening or notching areas of the intumescent rocks of the conducted mining in the soil or on the sides of the latter, the installation of polymer anchors with simultaneous injection of quick-hardening polymer composition immediately into all holes in accordance with the accepted fastening certificate, while the direction of the holes in the soil is carried out taking into account the direction of displacement Intumescent parts generating circuit (patent RU №2134350, publ. 10.08.1999).

The disadvantage of this method is the impossibility of its use in difficult mining and geological conditions, since there are no measures for unloading the coal mass from dangerous stresses.

A known method of protecting mine workings includes drilling holes in the roof of the workings with a conical broadening at the mouth of each hole, installing anchors in them with shanks connected by flexible ties, tensioning the ties with anchors, the holes being located at the intersection points of the axes parallel to the sides of the mine and dividing it the width is six equal parts, and circles with a diameter of 0.4 V, described from centers located at the intersection points of the axes with even serial numbers and lines perpendicular to the sides of the mine, at m, the distance between the mentioned lines is chosen equal to 0.6 V, the anchor shanks are made in the form of loops that form using double anchors, and a cable is used as flexible ties, while the cable is passed into loops, and its ends are fixed in holes (RU patent No. 2134350 publ. 09/15/1997).

The disadvantage of this method is the impossibility of its use in difficult mining and geological conditions, since there are no measures for unloading the coal mass from dangerous stresses.

There is a method of securing mine workings when conducting along outburst formations, including the formation of a discharge cavity (gap) above the formation and the installation of a permanent lining (see Melnikov N.I. Conducting and securing mine workings. M .: Nedra, 1988, pp. 325-326 )

The disadvantage of this method is the holding of the discharge cavity without fixing it, which can lead to dumping and reduce the safety of work.

There is a method of securing mine workings when conducting along outburst formations, taken as a prototype, which includes the formation of a discharge cavity in front of the face with an irreducible lead, planting in the discharge cavity of two rows of air cylinders with a shield, supplying compressed air to air cylinders, raising the shield to the level of the working roof, creating pressure between the roofing of the cavity and the pneumatic cylinders by supplying compressed air to the pneumatic cylinders, excavation of the rock under the shield at the step of installing the frames of the permanent support (application No. 2009148974, publ. 10.07. 2011).

The disadvantage of this method is the unloading and removal of first-row pneumocylinders under the shield, which can lead to a weakening of the contact of the shield with the roof rocks, dumping and reduce the safety of work.

The technical result is to increase the efficiency and safety of holding and securing preparatory workings in difficult mining and geological conditions.

The technical result is achieved by the fact that in the method of conducting and securing the mine workings in difficult geological conditions, including the formation of a discharge cavity in front of the face with irreducible advance, planting in the discharge cavity of two rows of pneumatic cylinders with a shield, raising the shield to the level of the working roof, creating a gap between the roof of the cavity and the pneumocylinders by supplying compressed air to the pneumocylinders, excavation of the rock under the shield at the step of installing the frames of the fixed lining, installation of the racks and upper tower of the constant lining According to the invention, an additional unloading cavity is created in the sides of the excavation, and the installation of the top support of the permanent support is made between the rows of air cylinders from the cavity passed in the sides of the development, after which the supports of the permanent support under the shield are attached to the supports of the supports, the strut is removed from the first row air cylinders by the release compressed air and extract the pneumatic cylinders into the fixed part of the mine, then carry out the excavation of the rock under the shield at the step of installing the frames of the permanent support, remove the spacer from the second pneumatic cylinders row by releasing compressed air and extract the pneumatic cylinders into the fixed part of the output, then carry out the discharge cavity to the original depth, after which the operations are repeated.

The invention is illustrated by drawings, where figure 1 shows a diagram of the conduct and fastening of the preparatory workings with a discharge cavity; figure 2 shows a diagram of the conduct and fastening of the preparatory workings with an unloading cavity, in which there are air cylinders with a shield; figure 3 shows a diagram of the conduct and fastening of the preparatory mine with an unloading cavity in the roof of the mine, in which there are pneumocylinders with a shield, and between the pneumocylinders there is the roof support installed from the cavity passed in the sides of the mine; figure 4 shows a section along aa; figure 5 is a diagram of the conduct and fastening of the preparatory workings with an unloading cavity in the roof of the workings, in which a pneumatic balloon is located and with an installed frame of permanent support from the cavity passed in the sides of the workings; figure 6 shows a diagram of the conduct and fastening of the preparatory workings with an unloading cavity at the formation roof, in which a pneumatic balloon is placed and with a fixed support frame installed after moving the face to the entry step. Fig. 7 shows a diagram of the holding and securing a preparatory mine with an unloading cavity at the mine roof and a pneumatic balloon removed from it, with a fixed support frame installed after moving the face to the approaching pitch.

In figure 1, 2, 3, 4, 5, 6, 7 it is shown: 1 - the bottom of the preparatory mine; 2 - discharge cavity in the roof of the reservoir; 3 - pneumocylinders; 4 - shield; 5 - additional discharge cavity in the sides of the output; 6 - the upper bearing of the permanent lining; 7 - stand permanent support; 8 - puff.

The fastening method is as follows: in front of the face of the preparatory mine 1, create an unloading cavity 2 to a depth of 2 m (Fig. 1), into which two rows of pneumocylinders 3 with a shield 4 placed on them are sent (Fig. 2). Compressed air is supplied to pneumatic cylinders 3 of the first and second rows. The presence of two rows of pneumocylinders allows you to raise the shield with a slope for charging the shield on the frame of the permanent lining. Raise the shield 4 to the level of the upper shaft 6 of the constant lining, lay the shield 4 on the frame of the constant lining, (Fig. 3), create a spacer between the roof of the discharge cavity 2 and the air cylinders 3 by supplying compressed air to the air cylinders. A rock is excavated in the working sides and an additional discharge cavity 5 is created in the working sides (Figs. 3, 4). The installation of the upper 6 is made between the pneumatic 3 from the additional discharge cavity 5, passed in the sides of the output (Fig.3, 4). After that, the supports 7 of the permanent support are attached to the roof supports 6, the frame of the permanent support is installed under the shield 4 (Fig. 5). The first row of pneumocylinders 3 (closest to the support frames) are unloaded and removed into the fixed part of the mine. A rock is excavated under the shield 4 to a value equal to the step of installing the frames of the constant lining (Fig.6). The strut is removed from the second-row song ballon 3 by releasing compressed air. Pneumocylinder is removed to the fixed part of the mine, and a puff 8 is installed between the support frames (Fig. 7). Then carry out the discharge cavity 2 to the original depth (figure 1). After that, the operation of sending pneumocylinders 3 to it with a shield 4 placed on them, supplying compressed air to pneumocylinders, raising the shield 4 to the level of the upper arm 6 of the permanent support, laying the shield on the frame of the permanent support, creating a gap between the roof of the discharge cavity 2 and the pneumatic cylinder 3 by supplying compressed air to the pneumatic cylinders, excavation of the rock in the sides of the excavation and the creation of an additional discharge cavity 5, installation of the upper support 6 of the permanent support from the additional discharge cavity 5, the fastening of the struts 7 of the permanent support to the upper 6, excavation of the rock under the shield to a value equal to the step of installing the frames of the permanent support, unloading the pneumatic balloon 3 closest to the frames of the support, removing it from the secured part of the mine, removing the pressure from the second-row pneumatic cylinder by releasing compressed air, removing the second air cylinder to the fixed part of the mine , holding the discharge cavity 2 to the original length is repeated.

This method of conducting and securing preparatory workings will improve the efficiency and safety of holding and securing mine workings in difficult geological conditions.

Claims (1)

A method of holding and securing mine workings in difficult geological conditions, including the formation of a discharge cavity in front of the face with an irreducible lead, planting into the discharge cavity of two rows of pneumocylinders with a shield, raising the shield to the level of the working roof, creating a gap between the cavity roof and pneumocylinders by applying a compressed air into the pneumatic cylinders, excavation of the rock under the shield at the step of installing the frames of the permanent support, the installation of racks and upper support of the permanent support under the shield, characterized in that on the sides and create an additional unloading cavity, and the installation of the upper support of the permanent support is carried out between the rows of pneumocylinders from the cavity passed in the sides of the excavation, after which the supports of the permanent support under the shield are attached to the supports of the supports, the strut is removed from the first row pneumatic cylinders by releasing compressed air and the pneumatic cylinders are removed part of the development, then excavate the rock under the shield at the step of installing the frames of the constant support, remove the spacer from the second row pneumocylinders by releasing compressed air and They put pneumatic balloons into the fixed part of the mine, then carry out the discharge cavity to the original depth, after which the operations are repeated.

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