SU1133407A1 - Method of sinking shafts in permafrost soil - Google Patents

Abstract

METHOD OF STEMWARE DRIVING UNDER CONDITIONS OF MULTI-YEAR FROZLES, including the construction of a pit, the formation of a knife-shaped lining part of the trunk at the bottom of the pit, dredging of the rock from top to bottom, and the build-up of lining as it is lowered, characterized in that, in order to improve the efficiency, ///////// installation and improvement of mine safety, in the pit, the cutter part of the lowered array is shaped as a base-plate, having an internal technological cavity for remote control of machines and mechanisms. The ring thermal elements are mounted along the contour of the pit, then the ice block is frozen in the pit, after which the rocks are dredged under the base pillow and discharged through the auxiliary shaft. heating the heat of the elements and, as the ice mass is lowered, ice is frozen and the heat elements build up.

Description

The invention relates to the mining industry and can be used for driving barrels with simultaneous installation of equipment in them.

The known method of penetrating the trunks with the use of a drop support consists in that the trunk passes under the protection of a closed monolithic shell (support) immersed in the rock as it is excavated 1.

The disadvantages of the method are its use only in unstable rocks, the need for additional or forced loads, the lowering of the cylinder support from the vertical position

The known method of penetration of the trunk, including the device of the pit, the formation at the bottom of the pit of the knife part of the lining of the trunk, dredging the rock from top to bottom, increasing the lining as it descends 2.

The disadvantages of this method are the impossibility of mounting in the trunk of special equipment until the end of the penetration and mounting of the barrel, and the safety of mining operations is also low.

The purpose of the invention is to increase the efficiency of tunneling works when driving shafts and improving the safety of mining operations.

This goal is achieved in that according to the method of penetration of trunks in permafrost conditions, the cutter part of the lowered array is shaped in the form of a base pillow, which has an internal technological cavity for remote control of machines and mechanisms, arranges on the cushion to interface with it and additionally auxiliary stem, mount circular thermal elements along the contour of the pit, then freeze ice packs in the pit, and then excavate the rocks under the base pillow and dispensing it along the auxiliary trunk, then lowering the ice mass by heating the thermal elements and, as the ice mass is lowered, ice is frozen and the thermal elements build up.

FIG. 1 shows the initial period of construction, vertical section; in fig. 2 shows section A-A in FIG. one; in fig. 3 and 4 - trunks at the time of penetration and installation of equipment, vertical section.

The method of driving trunks implemented as follows.

The excavation of the excavation pit 1 (or a rigid formwork) is made on the day surface; it has enough space to accommodate the primary 2 and auxiliary 3 shafts, as well as the maintenance rooms 4. The walls of the excavation 1 are fixed with a support 5. At the bottom of the excavation a reinforced concrete or prefabricated metal pad 6 is formed, having an internal process cavity 7 and reinforcement structures 8. The lower part of the base is made in the form of a supporting cutting ring 9. Under the base b, a mounting chamber 10 is arranged. In the upper plane of the base cushion, its matings with the main 2 and auxiliary 3 shafts are formed, for which the lining 11 of the main trunk and the lining 12 of the auxiliary are mounted. From the outside, the trunk trunks are heat-insulated with cover 13. In addition, anchor bolts 14 are fastened to the pillow base or another crank is arranged.

Above the trench 1, a driving head is mounted on the supporting structures 15, and driving machines, mechanisms and equipment are placed in the mounting chamber 10.

In the cold season, using natural air, and in summer, using the refrigeration units, ice 16 is frozen in a trench 1. Circular thermal elements 17 (pipes, heating cable, etc.) or slippings are installed along the contour of the array. mechanical elements.

After performing these works, excavation of waste rock is carried out using drilling and blasting operations or combines from the mounting chamber 10 from top to bottom over the entire base area. At the same time, the rocks are dispensed through the auxiliary trunk using skips or badges 18. For the skip lifting, in conjunction with the auxiliary trunk 3 with the base 6, a loading device is mounted. Issued to the surface of the rock is placed in the dumps or in the pit 1, where it is cemented with ice. Harvesting is carried out by high-performance loading machines or continuous-action harvesters 19 in conjunction with material handlers 20. This allows for quick harvesting of the rock, despite its increased volume compared to conventional penetration methods.

As the rock is excavated, the ice massif is lowered and the supports of the main and auxiliary shafts are built up.

The advantages of the proposed method are a drastic reduction in the overall construction period of the installation, the use of high-performance serial mining equipment at the mine, an increased quality of shaft supports and their insulation, safety of work, lack of temporary roof supports, as well as reduced construction costs. YES

Claims (1)

METHOD FOR PASSING BARDS UNDER CONDITIONS OF PERENNIAL FROZEN, including excavation of the foundation pit, formation of the knife part of the trunk support at the bottom of the foundation pit, excavation of the rock from top to bottom, extension of the support as it is lowered, characterized in that, in order to increase the efficiency of tunneling and installation work and improve safety mining, in the pit the knife part of the lowered array is formed in the form of a base pillow having an internal technological cavity for remote control of machines and mechanisms, arranged on a pillow mates of the trunk and, additionally, the auxiliary trunk, mount ring thermal elements along the contour of the pit, then freeze the ice mass in the pit, then excavate the rocks under the base pillow and issue it along the auxiliary trunk, then lower the ice mass by heating the thermal elements and, as the ice mass sinks, ice is frozen and thermal elements build up. FIG. 1