RU190916U1 - UNDERGROUND EQUIPMENT - Google Patents

Abstract

The utility model is aimed at reducing the material consumption of the structure, reducing the deformation of the spacer support and improving manufacturability. The technical result is achieved by the fact that in an underground structure that includes a building envelope (1) in the form of a wall in the ground or a tongue around the perimeter of the excavation, a number of floors of capital floors (2) fixed on the building envelope with the transfer of horizontal force, inventory support elements (3) , attached to the capital overlappings, and the other end to the capital vertical supporting structures (4), and the base plate (5), a local foundation pit (7) with a fence (8) along its perimeter and a fragment of the base plate, in which are placed with support on a fragment of the base plate vertical supporting structures, and capital floors are made in the form of closed disks, which are located along the building envelope of the underground structure with the formation of vertical openings (6), with capital floors connected by connections (10). Capital floors can be located with the formation of vertical openings with displacement on different floors. 4 s.p. f-ly, 5il.

Description

The utility model relates to the field of construction and can be used in the construction of new underground structures with a pit of the way works.

There are underground structures in which the structures enclosing the excavation are burst with capital ceilings supported on vertical temporary bearing elements: slotted foundations or piles-columns, carried out prior to the development of the soil, / RF Patent No. 2229557, cl. E02D 5/00, publ. May 27, 2004.

A disadvantage of the known construction is the high cost of pile-columns and slotted foundations, the blockage of the pit by them in the development of soil.

The closest to the proposed utility model according to the technical result is an underground structure consisting of a fencing structure made by the “wall in soil” method located along the perimeter of the structure, capital ceilings that receive horizontal pressure from the fencing structure, temporary inventory bearing elements attached to the ceiling for ensure spatial work on the vertical load, the base plate, located at the bottom of the pit, on which the vertical inventory elements, and nodes of intersection of temporary inventory bearing elements with reinforcing construction (RF Patent No. 83080 class E02D 17/04, publ. 20.05.2009 /.

The main disadvantage of this design is the high consumption of steel for inventory elements and the complexity of the development of soil for large dimensions of the pit, as well as a large deflection of the supporting structure of the weight of the ceilings during installation.

The technical problem to be solved by the utility model is to reduce the material consumption of the structure by reducing the consumption of metal for inventory items, reducing the deformation of the spacer support and improving manufacturability due to the possibility of using more efficient equipment for the development of the soil.

The technical problem is solved due to the fact that in the underground structure including the enclosing structure around the perimeter of the pit, a number of floors of capital floors, fixed on the walling, with the transfer of horizontal force, inventory bearing elements attached to capital floors, and the other end to the capital vertical supporting structures , and the foundation slab, according to the utility model, has a local excavation pit with a fence around its perimeter and a fragment of the foundation slab in which are placed with sometimes, on a fragment of the base plate there are vertical supporting structures, and capital floors are made in the form of closed disks, which are located along the enclosing structure of the underground structure with the formation of vertical openings, with the capital floors being connected by connections. Moreover, capital overlap of underground structures can be located with the formation of vertical openings with displacement on different floors.

In addition, between the overlap of different floors can be placed connecting the overlap, additional inventory elements, with the formation of the spatial spacer system to which the connections are attached.

At the same time, the inventory bearing elements can be made in the form of pylons with two columns, one of which is supported on the enclosing structure, and the other on the vertical supporting structure, and guy pillars supported on the pylons, the lower ends of which are fixed in tie nodes of capital overlaps. In addition, between the ceilings and vertical bearing structures can be installed struts.

The proposed construction of an underground structure differs from that known in that, in the construction of an underground device, a local pit is arranged with a fence around its perimeter and a fragment of a base plate in which vertical supporting structures are placed with a support on a fragment of a base plate, and the capital floors are in the form of closed disks, which are located along the enclosing structure of the underground structure with the formation of vertical openings, with capital overlaps connected by connections. Moreover, capital overlap can be located with the formation of vertical openings offset on different floors. In addition, between the overlap of different floors can be placed connecting the overlap, additional inventory elements, with the formation of the spatial spacer system to which the connections are attached. At the same time, the inventory bearing elements can be made in the form of pylons with two columns, one of which is supported on the enclosing structure, and the other on the vertical supporting structure, and guy pillars supported on the pylons, the lower ends of which are fixed in tie nodes of capital overlaps. In addition, between the ceilings and vertical bearing structures can be installed struts.

The proposed fastening of an underground structure allows the construction of a large depth at large in terms of size with a relatively low cost.

Due to the implementation of a fragment of the base plate and vertical supporting structures in a local trench, a significant reduction in spans of the system is achieved, and the presence of openings in capital overlaps reduces the weight transferred to the expansion system, and due to openings, its weight decreases. account ties.

The presence of openings and the displacement of their contours allows the use of high-performance equipment in the production of works and facilitates the development of the soil and its loading.

The presence of inventory elements and struts, rested on the supporting structures, reduces bending moments in them, as does the use of a cable-stayed structure, the pylons of which rest on the walls in the ground and the vertical supporting structures concreted in the local excavation.

FIG. 1 shows a plan of an underground structure at the level of the upper floor with different mounting schemes; FIG. 2 - a plan of underground structures in the level of the lower floors; FIG. 3 - section 1-1 of FIG. one; FIG. 4 - a section of an underground structure (a variant of fastening a trench due to inventory structures in the form of pylons and cables); FIG. 5 is the same as in FIG. 4 (option of mounting the trench due to inventory structures located between the ceilings).

Underground structure consists of:

From the walling of the excavation structure (for example, “wall in the ground” or tongue), 1, capital floors 2 attached to the walling with the ability to transfer horizontal effort, temporary inventory bearing elements 3, capital vertical bearing structure 4, a fragment of the base plate 5, openings 6 in capital overlaps 2, a local excavation 7 with a fence 8, inventory elements 9 between capital overlaps 2, connections 10, pylons 11 with uprights 12, guy 13, struts 14 and attachments of connections 15 in the capital x overlaps 2. A tower crane can lean on a fragment of the base plate 16.

Underground construction is as follows:

First, the enclosing structure 1 of the excavation is performed around the perimeter of the structure, for example, in the form of a “wall in the ground”. Concurrently, the fence 8 of the local excavation 7 is executed. After the development of the soil of the local excavation 7, a fragment of the foundation plate 5 is made at its bottom and the vertical supporting structures 4 are concreted. Then the first soil layer is developed in the main excavation in which the capital floor slabs are concrete cast openings 6. On a fragment of the base plate 5 can be mounted tower crane 16, used for mounting structures and moving the soil. Temporary inventory bearing elements 3 are attached to the vertical supporting structures 4, to which, directly, or by means of links 10, they are attached in nodes 15 with overlapping discs 2 in which openings 6 are arranged.

Inventory elements 9 can interconnect the overlapping disks 2, with which they form a spatial system based on the building envelope 1 and vertical support elements 4.

On the enclosing structure 1 and the vertical support elements 4 can be supported racks 12, forming a pylon 11, to which the cables 13 are attached, the lower ends of which at the nodes 15 are fixed to the floor disks 2.

Connections 10 below the underlying overlapping discs are attached to the nodes 15. After the spacer system gains the strength necessary for the perception of horizontal loads from the enclosing structure and its own weight, they begin to develop the soil in tiers with installation of links 10 and below the underlying floor 2 as the soil develops. To move the soil, a tower crane 16 can be used. mounted on a fragment of the base plate 5. Machines and mechanisms that move along the bottom of the pit can be placed in the space of the openings 6.

Claims (5)

1. Underground structure, including the enclosing structure around the perimeter of the excavation, a number of floors of capital floors, fixed on the walling structure, with the transfer of horizontal force, inventory bearing elements attached to the capital floors, and the other end to the vertical capital structures, and the base plate, characterized in that in the underground structure there is a local foundation pit with a fence around its perimeter and a fragment of the foundation slab in which the foundations are placed with the support on the fragment coagulant vertical plate bearing designs and capital floors are made in the form of closed discs, which are arranged along the partition structure form the underground construction with vertical apertures, capital and overlapping interconnected links. 2. Underground construction under item 1, characterized in that the capital overlap are located with the formation of vertical openings with displacement on different floors. 3. Underground construction according to claim 1, characterized in that between the overlapping floors of different floors are located connecting floors, additional inventory elements, with the formation of a spatial distance system to which the connections are attached. 4. Underground construction according to claim 1, characterized in that the inventory bearing elements are made in the form of pylons with two columns, one of which is supported on the building envelope, and the other on the vertical support structure, the lower ends of which are fixed in tie nodes of capital overlaps. 5. Underground structure under item 1, characterized in that between the capital floors and vertical supporting structures installed struts.

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