SU1747705A1 - Method of erection of underground structure - Google Patents

Abstract

The invention relates to the mining industry and can be used for the construction of underground structures of vertical orientation. The purpose of the invention is to increase the service life of the underground structure by ensuring the safety of the boundary array. The method consists in the fact that, under the base of the earthly structure, a vertical orientation forms a compensation volume 6 into which the core 7 of the assembly is landed. The compensation volume 6 is developed simultaneously with the sinking and fastening of the arch 4 structures by storm

Description

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and detonation of deep wells 13 for compensatory vertical production 12 and partial release of broken rock through outlet funnels 11. Landing the core 7 after drilling and blasting (according to the pre-slit method) along its contour deep inclined from the axis of the well structure 14 is compensated the volume, and the subsequent immersion of the core, is made gradually as the rock is evenly released through the craters 11. Fastening the walls of the structure with pre-stressed anchors 10 d from the additional annular excavation 9, and the frill of the stabbings from the walls and the application of a coating of sprayed concrete on them is carried out from the upper surface of the core 7 as it sinks into the compensation volume. 4 з п, ф-л, 3 Il.

The invention relates to the mining industry and can be used in energy and special construction, for example, in the construction of underground storage facilities (oil products, gas, etc.), as well as in the reactor halls of underground nuclear power plants.

The purpose of the invention is to increase the service life of the underground structure by ensuring the safety of the boundary array

Fig 1 shows the construction and compensation volume during their development, a longitudinal section, Fig 2 shows a section A-A in Fig 1, Fig 3 shows a construction after landing of its core in the compensation volume, a longitudinal section.

The method of erection is carried out as follows.

The excavation of workings 1-3 start simultaneously on three horizons. At that, the following works are performed on each horizon. From the excavation 1, the arched part 4 of the structure is drilled by the borehole method and a permanent roof of the arch is installed. From the approaching excavation 2, the complex of excavations 5 is drilled for drilling deep wells and developing a compensation volume of b. the formation of an undercut 5 under the core 7 of the structure and the abandonment of the pillars of the breed 8 for the construction of the structure 9, on which the perimeter zone of the erected structure is being fixed Pre-stressed anchors 10 to the full height of the walls. From the approach openings 3 on the lower horizon, the funnels 11 are divided within the contour of the compensation volume 6 under the building to produce crushed rock during the development of the compensation volume and the compensatory vertical production 12 (or two workings at large diameter compensation volume) to the base of the structure. After installation in the outlets of the funnels 11 of the vibrating feeders from the workings 5, vertical deep wells 13 are drilled and blasting within the limits of the design circuit 6 of the compensation volume. As the deep wells 13 are drilled and blasting, the crushed rock is partially discharged through the funnels 11 so that after the completion of drilling and blasting work on the development of compensation volume, it will be completely filled with crushed rock

Simultaneously with the development of a compensation volume 6 from the upper surface of the structure 7 core and along its contour with a deviation from the axis of the structure, we drill the borehole 14 to the full height of the core, and after they are loaded with explosives and filled with grease, a blasting method is used. After the separation of the rock mass of the core 7 of the structure and its landing on the crushed rock 15, which fills the compensation volume 6., the rock outlet mass is released through the outlet funnels 11. As the core is immersed (into the compensation volume), the frills of pins from the walls of the building are frilled from the upper surface and a protective coating is applied to them, for example, from sprayed concrete.

the upper surface of the core of the project base mark of the building; the release of rock through the craters is completed and insulated with concrete plugs. At the same time, the space between the side surface of the submerged core 7 and the contour of the compensation volume 6 is filled with crushed rock and the leveling layer of concrete is laid at the base of the structure

The separation of the core and its placement into the compensation volume by the proposed method make it possible to minimize the seismic and dynamic impact of the explosion when developing the core and to remove the front of blasting operations from the marginal zone of the walls of the structure to a safe distance.

development of compensation volume. The positive effect is achieved due to the preservation of the contour array and the use of its load-bearing properties for long-term operation of the structure, as well as the possibility of using a lightweight structural lining, which is mainly intended to prevent the weathering of the near-surface zone of the walls, during the operation. facilities.

Claims (5)

Claim 1, A method of erecting an underground structure, which includes sinking approach workings to the roof and foundation of a structure, developing the structure core and fixing its roof part, drilling and blasting deep wells, and producing rock, characterized in that construction by ensuring the safety of the edge array, create a compensation volume by siding additional inclined and vertical workings, cutting exhaust outlets, drilling and blasting deep wells in on a past production of vertical compensation and partial release vzor- bath breed from the compensation space and the development of the core sooruzhe- J This is accomplished by drilling deep wells along the contour of the core and blasting them according to the method of contour blasting with the landing of the structure core into the formed compensation volume. 2. The method according to claim 1. characterized in that the development of the lower part of the structure is carried out taking into account the possible maximum deviation of the wells along the core contour and the contour of the compensation volume. 3. Method according to paragraphs. 1 and 2, characterized in that the drilling of deep wells along the contour of the core is carried out at an angle to the vertical axis of the structure, equal to or exceeding the maximum deviation of the wells, and when they are loaded, lubricants are placed in the wells. 4. A method according to claim 1, characterized in that an additional horizontal excavation is carried out along the perimeter of the base of the building, from which the curvature of wall rock of the building is mounted to its entire height by installing prestressed anchors 5. Method according to paragraphs. 1-4, that is, so that the fastening of the marginal zone of the structure is carried out in the upper surface of the rock core as it is lowered. - /) AND .2 Fi.Z