CZ333992A3 - reinforced concrete structure for building works with safety purposes - Google Patents

Abstract

A reinforced concrete structure for a shelter or strong-room comprises reinforcement in the form of parallel sheets (1) of expanded metal interconnected by bent arrays (2) comprising elements (3), which may be rods, in planes at right angles to those of the sheets (1), and elements (4) parallel to the sheets. The arrays are located relative to the sheets by further elements (6) passing through vertices of elements (3). <IMAGE>

Description

The present invention relates to a reinforced concrete structure which is intended for construction work with security purposes, such as the construction of security warehouses, explosion-proof enclosures and other buildings having the ability to resist the sudden ignition of explosive charges or substances accompanied by instantaneous high energy .

More specifically, the present invention relates to a reinforced concrete structure having an armature essentially consisting of two panels, the first being a network of strained metal and the second being a profile with weakened cross-sections and high strength (e.g. bars). The latter type of paheiu is preformed from pre-bent profiles having the desired shapes and spacing, parallel to each other and fastened by means of mutually parallel longitudinal profiles. The material used in such a panel may be metal or other suitable article.

Said panels are arranged parallel to each other or predominantly parallel to their major axis and are interconnected by introducing the corners of the bent profiles into the diamond meshes of the stretched metal panel networks through which the tapered profile fixing portions pass, these parts being assembled during assembly of the fitting.

Concrete coating is carried out simultaneously in all parts of the structure, regardless of whether it is a carpet or wall, using a high strength concrete which contains admixtures such as sand, crushed stone and the like and, if necessary, softening elements.

BACKGROUND OF THE INVENTION

Over the years, experience has shown that the traditional reinforced concrete structures did not exhibit the required resistance to force fields induced by the sudden ignition of explosive charges or substances, despite this reinforcement. Tests have shown that concrete structures containing heavy and rigid fittings exhibit adverse effects when exposed to explosive agents.

Some types of well known structures, although equipped with fittings designed to achieve explosion resistance, are not suitable for the purpose of easily realizing concrete coverage, since they require this action to take place in several steps and the armature to be assembled gradually during the concrete coating procedure .

There are other types of reinforced concrete structures that are difficult to realize because the assembly requirements are complicated, costly, and difficult to manufacture, especially for bent panels.

Experiments carried out in the case of reinforced concrete structures designed solely for the purpose of resistance to activated explosives made it possible to find that profiles with a cross-section above 15 mm carry kinetic allergy explosions to such significant levels that the concrete's adhesion to steel is easily impaired. This creates the possibility of very easy discharge of debris from the destroyed area with all the other complications and damage that such a situation causes on the structure for safety purposes.

Further experiments carried out on structures designed for safety purposes having different profile cross-section parameters have shown that using the same charge weight, the external extent of damage to the respective surfaces is proportional to the cross-sectional values of the used fitting profiles.

In the case of subject structures, the use of rail type or U ”type profiles does not support their resistance, but rather the formation of debris, even after a small charge explosion. Tests carried out in the areas adjacent to the horizontal joints of reinforced concrete show that not only the extent of the damage caused is important, but also debris removal, where broken or crushed concrete is easier to spill.

It is not unusual for the types of reinforced fittings that have been used so far to carry concrete coatings in layers ranging from 300 mm to 900 mm thickness. This thickness is required by the fact that, although hardened fittings can provide adequate protection, they do not allow simple concrete coverings to be implemented, and therefore their placement in buildings must be done in parts.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a structure that overcomes these drawbacks.

The invention provides a reinforced concrete structure for construction work with safety purposes which comprises a homogeneous and downstream armature consisting of two sets of panels arranged in parallel or predominantly parallel to each other. The first type of panel is in the form of a stretched steel network assembled in various configurations, generally rhombic, while the second type of panel consists of two profile shapes having a small cross section made, for example, of high strength steel, the profiles of one of these shapes being pre-bent and pitch, wherein the corners of the bent angles represent different amplitudes, and the profiles of the second respective shaping are in the form of simple portions arranged parallel to each other and fixed to the pre-bent profiles in accordance with a predetermined assembly.

Said longitudinal profiles which are fixed to the pre-bent profiles serve as a support for the stressed metal panels.

The assembling of the panels is accomplished by introducing the corners of the profiles of the thus-produced panel into the network of the stretched metal panel, the panels being held firmly in the desired position by means of independent section sections positioned on the construction site opposite the stretched metal panel and parallel to the longitudinal axis.

The present invention has corresponding advantages over existing types of structures for security purposes, among which we highlight the following:

The weakened cross-sections of the high-strength profiles that form one of the panels (for rods, their diameters range from 8 to 12 mm>, their arrangement and the considerable density in the structure make it impossible to create holes for placing explosive charges.

Different assemblies of several panels and their corresponding arrangement along the wall of the structure keep the concrete and fittings in place, thus preventing the concrete from being discharged and the valves from displacing after the explosive explosion.

The fitting is assembled on the construction site and does not give rise to any weak points or horizontal joints in the walls; the panels are assembled along the entire height of the wall; the vertical joints of the panels have overlapping portions that are offset, while the joining of the different armature elements is not rigid, which avoids the formation of cracks and layered structures, thereby limiting the transmission of shock waves induced at the moment of explosion of the explosive.

The invented fitting can be completely inspected before starting the concrete coating procedure.

The structure is solved in such a way that the covering of the walls with the baton is carried out once and over their entire height, allowing a constant flow of concrete and easy access to the needle vibrator.

During the covering of concrete, parts of the fitting cannot be deflected from their positions and the existence of burrs on the fitting elements gives it excellent grip of the concrete.

After concrete coverage, it is difficult to determine the valve configuration using non-destructive control means.

Overview of the drawings

The features and advantages of the present invention will become more apparent from the description of the accompanying drawings, in which:

Giant. 1 shows a cross-sectional view of a reinforcing concrete structure fitting according to a preferred embodiment of the invention.

Giant. 2 is a cross-sectional view of an armature reinforcing concrete structure according to an alternative embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

The proposed reinforced concrete structure for construction work with safety purposes according to the present invention is explained below by way of example analysis in connection with the arrangements shown in the drawings. According to the preferred embodiment of the present invention shown in Fig. 1, the reinforced concrete armature consists of two sets of panels 1 and 2, wherein the panel 1 is formed by a mesh of stretched steel whose meshes can have a rhombic configuration and is located within the structure. position in the overall vertical position for the walls and horizontal for the carpet. The panel 2 is positioned relative to the panel 1 in a position that is suitably parallel to its major axis and consists of two types of high strength steel profiles with small cross sections (diameters ranging from 8 to 12 mm in the case of bars). The profiles 2 of the panel 2 are respectively preformed, which means bending into corresponding geometric configurations, such as the form of a continuous W. The profiles 6 which are fixed to the pre-bent profiles 3 'are arranged perpendicular to the plane of the profiles 3. and serves as a support for the panels 2.

The interconnection of the panels 1 and 2 is effected by introducing the corners 5 of the bent profile 2 of the mesh meshes of the panel 1. The two panels are fastened together by introducing several sections of profiles having a small cross-section into the corners 5.

The panel joining procedure is performed at the construction site during the longitudinal panel assembly procedure (this procedure is repeated as many times as necessary to achieve the desired assembly) and then finally the armature appears as a homogeneous, continuous and flexible mesh reinforcement.

According to the alternative embodiment of the present invention shown in Fig. 2, the downstream fitting is formed by two panel assemblies 1 and 2, which are explained in a similar manner to the first preferred embodiment of the invention / but their interconnection according to this alternative form is carried out on site. pre-bent panels 2, one on each side of the tensioned steel panel 1, in that the corners of both profiles 3, panels 2 extend through the meshes of the panel 1, overlap each other and finally are joined by means of fastener panel parts 5

The covering of the fitting, which is explained in the examples with concrete, is carried out using a high-strength concrete containing the relevant admixtures and, if necessary, a plasticizer.

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Claims (4)

A reinforced concrete structure for construction work with safety purposes, characterized in that it has an armature generally consisting of two panel assemblies (1,2) arranged parallel or predominantly parallel to each other, where the panels CL) are the first of the two assemblies. They are arranged as meshes with meshes of a corresponding geometric shape, for example rhombic, and are arranged in parallel planes! and wherein the panels (2) of the second assembly are pre-fabricated from pre-folded profiles (3) having shapes and spacing appropriate to the purpose of said mesh and positioned in parallel planes, and the panels (1,2) being interconnected in such a way as to form homogeneous, connecting and flexible armature. Reinforced concrete structure according to claim 1, characterized in that the panels (2) are formed by profiles (4) and pre-bent profiles (3), said profiles (4) being located predominantly perpendicular to the planes of the pre-shaped profiles (3). ) and are attached to these preformed profiles (3) and serve as supports for the panels (1). Reinforced concrete structure according to the preceding claims, characterized in that the panel assemblies (1, 2) are connected on both sides by introducing the corners (5) of the pre-bent profiles (3) into the meshes of the tensioned steel panels (1). in such a way that these profiles generally overlap in the same plane, the fixing being carried out by separate profiles (6) adjacent to the panels (1) such that these profiles extend in the corners of the pre-bent profiles (3) located on both sides of the panels (2). Reinforced concrete structure according to the preceding claims, characterized in that the joining of the panels (1, 2) is carried out by placing one of the two panels (2) on both sides of the panel (1) in such a way that 3) the panel (2) passes through the meshes of the panel (1), overlapping each other and finally fixed by means of separate profiles (6).