CS258189B1 - Reinforced concrete monolithic inner sheath of the lamellar reinforcement of pit cuttings - Google Patents

Abstract

Reinforced concrete inner shell of multi-shell reinforcement, the essence of which is that it is formed by spatial reinforcing frames welded from steel bars. Spatial reinforcing frames are anchored to the previous reinforcement shell using bolts. They are arranged in strips interconnected by overlapping parts in the areas formed by the external and internal networks of spatial reinforcing frames.

Description

The bumper is a mining construction node in which the horizontal pit canopy is connected to the vertical pit shaft. In difficult geotechnical conditions, the required load-bearing capacity of this node is achieved by gradual implementation of several reinforcing shells. Different types of steel, concrete or brick masonry, reinforced concrete or metal girders, as well as combinations of different reinforcements are used for individual reinforcing shells. Due to the complicated shape of the bumper, it is multi-shell and therefore more expensive. When using tybinks, a wide assortment of different shape elements is required.

The aforementioned drawbacks are eliminated by the reinforced concrete monolithic inner casing of the multi-layer reinforcement of the pit bump according to the invention, which consists in that the concrete reinforcement of the inner casing is formed by spatial reinforcing skeletons of modular construction welded from prisms. the inner shell has the shape of identical rectangles and the steel bars in these walls form meshes extending over two adjacent sides of the rectangle by overlapping portions which are rotated 180 ° from the outside net to the overlapping portions of the inner net perpendicular to one another in the area formed by internal meshes, while the surfaces of the inner casing not covered by the entire spatial reinforcing skeletons are covered the reinforced spatial reinforcement skeletons and conventional concrete reinforcement connected to the adjacent spatial reinforcement skeletons.

The advantage of the solution according to the invention is to replace most of the conventional reinforcing reinforcement with a modular construction element made off-site in the bumper. The uniformity of the construction of this element - spatial reinforcing skeleton - facilitates production, distribution and handling work.

In the accompanying drawings, an exemplary embodiment of a reinforced concrete monolithic inner shell of a multi-layer reinforcement of a pit bumper is shown in Fig. 1 is an axonometric view of a schematic spatial reinforcement skeleton, Fig. 2 is a view of its internal mesh; Fig. 4 is a perspective view of the inner shell of the bumper adjoining the pit shaft; and Fig. 5 is a portion of the bumper of Fig. 4 with a schematic representation of the placement of spatial reinforcing skeletons.

The core of the reinforced concrete monolithic inner casing 2 of the multi-layer reinforcement of the pit bumper adjoining the steel-concrete previous casing 9 and the annular dies 14 of the pit shaft 13 is the spatial reinforcement skeleton 2. The base body of the spatial reinforcing skeleton 2 has the shape of a prism whose walls oriented towards the inner and outer surface of the inner shell 2 have the shape of an identical rectangle 2. 2 the external network 2 to the corresponding shape of the overlapping portion in the internal network 2 ^'ot Sena ° to 180 °. Outer net 2 ^and inner net 2 are connected to each other by cross bars 2 ·

The spatial reinforcement carcasses 2 are located in strips both in the striking wings 12 and in the penetrating penetration 21. The wedge bolts 2 are anchored to the previous steel-concrete casing 2. The overlapping parts 2 ensure mutual interference of adjacent spatial frames 2 in two perpendicular directions on the one hand in the strip direction and on the other between adjacent strips, both in the area formed by the outer meshes 2 · and in the area formed by the inner meshes 2 · Spherical surfaces of the inner casing 2 · not covered by the entire spatial reinforcing skeletons 2 at the place of use, by cutting off their parts, on the one hand they are provided with conventional concrete reinforcement connected to the adjacent spatial reinforcement frames 2 · The concrete filling of the inner casing 2 is made of shotcrete.

The support system forms a dome in which forces are transmitted in the vertical direction to the annular dies of the shaft shaft, in the horizontal direction to the reinforced rings at the contact of the bumper wings and the bumper penetration.

Claims (1)

reinforced concrete monolithic inner shell of multi-shell reinforcement of pit bumps, characterized in that the concrete reinforcement of the inner shell (8) is formed by spatial reinforcing skeletons (1) of modular construction welded from steel bars having a prism shape whose walls facing the inner and outer surface the inner sheaths (8) have the shape of identical rectangles (2) and the steel bars in these walls form meshes extending over two adjacent sides of the rectangle (2) by overlapping portions (3) which are on the outer net side (4) opposite overlapping portions (3) (5) rotated through 180 ° to ensure mutual overlap of adjacent spatial reinforcing skeletons (1) in two perpendicular directions, both in the area formed by the outer meshes (4) and in the area formed by the inner meshes (5), the surfaces of the inner casing (8) ) not covered by the entire spatial height the reinforcing skeletons (1) are covered by the shape-reinforced spatial reinforcing skeletons (1) and the conventional concrete reinforcement connected to the adjacent spatial reinforcing skeletons (1).