RU2032036C1 - Building structure - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: building structure comprises protective layer of panels 1, waterproofing facing 2 with crimps 3, bearing layer 4, drain channels in case of porous concrete panels 1, gaps 6 between ends of panels 1, ledge 7, crimp 3 extending beyond the outline of panels 1 and provided with superposed members 8 forming a bearing strip of T-shaped cross section from hardening material or a rigid bearer enveloped by crimp 3 and provided with means for connection with bearing layer 4 and panels 1. EFFECT: lower material content and easier installation of structure. 4 cl, 4 dwg

Description

 The invention relates to the construction, and can be used in the construction of buildings or structures or parts thereof, requiring protection from exposure to both groundwater or high humidity, and chemically aggressive environments. In particular, the invention can be used for the erection of walls of buried parts of buildings and structures, trays for transporting aggressive industrial effluents, including with abrasive impurities, underground tunnels, various tanks of treatment facilities, for example averagers, aerotanks, agricultural tanks (hay towers, etc.), as well as to isolate previously erected parts of buildings and structures that need protection from aggressive environments.

 The aim of the invention is to reduce material consumption and increase the manufacturability of the installation structure.

 Figure 1 shows the proposed building structure of the wall of the buried premises, top view; figure 2 - t about the same, an embodiment; figure 3 - node I in figure 2; figure 4 is a fragment of a possible embodiment of the building structure of the wall at the time of its construction, top view.

 The building structure includes a protective layer consisting of shields 1, waterproofing lining 2, made of polymer film materials with folds 3, and the bearing layer 4 of concrete, while shields 1 can be made as if necessary in the reduction of porous concrete with drainage channels 5 (Fig. 1), and from dense materials having the necessary mechanical strength and resistance to the influence of aggressive environments, such as glass cement, asbestos cement, etc. (figure 2). The shields 1 in the structure are installed with the formation of gaps 6 between the ends, the dimensions of which are based on the perception by the step 7 of the carrier layer 4 of tearing and shear forces acting on the protective layer during the operational period, and the step 7 can interact as a hook of the ends of the plates by performing the ends surface concave shape (figure 1), and in the circumference of the ends with the implementation of the ledge 7 while in the form of a brand (figure 2). In both considered variants, the lining 2 in the gaps is protected by additional overhead elements 8, for example, a U-shaped with hooks (Fig. 2) or a non-rigid strip, for example, of fiberglass, which is installed at the time of construction of the structure and fixed by making ends on the ends of the shields 1 (Fig. 1) with their subsequent pinching with the material of the interlayer 4. For fixing the shields 1 during the period of construction of the building structure, the latter can be equipped with lost cords 9 interacting at one end with the ends of the shields 1 by means of the U-shaped element 10 through the elastic gaskets 11 (Fig. 3), and by other ends connected to the opposite formwork elements or to the reinforcement of the carrier layer (not shown).

 In the case of operation of the proposed design in severe conditions, for example, in the presence of large temperature differences or possible uneven subsidence, to prevent damage to the lining 2, an expansion joint in the form of a tape of elastic material (not shown) can be placed between the ends of the panels.

 Figure 4 shows a fragment of a possible embodiment of a building structure using girders 12, equipped with communication elements with a carrier layer 4, made in the form of strands 9, mounted to the opposite formwork and designed by bending to the carrier layer, and mounting clamps, for example P- shaped elements 10, made mainly of plastic, fixed to the run 12 and included in the hook with the ends of the shields 1.

 The building structure is constructed as follows.

 On the prepared base, the reinforcement of the carrier layer 4 and the formwork of the carrier layer opposite to the protective layer are installed. After that, the shields 1 are placed, ensuring their stability by mounting, and then in the gap, which can be 15-30 mm, between the upper ends of the shields 1 and the reinforcement of the carrier layer (on the example of the wall), facing 2 is formed (lowered) with the formation of folds 3 followed by mounting fixation of the latter to the ends with a previously applied layer of adhesive layer (Fig. 1) or installation of elements 10 with strands 9 after about 0.5-0.8 m (Figures 2 and 3).

 Then the gaps 6 are closed by overhead protective elements 8 or fiberglass with removable formwork, the final release of the protective layer is carried out, if necessary, with mounting fastening of the upper longitudinal edge of the cladding 2 by bending it to the upper ends of the shields 1 and installing additional inventory runs and contractions, and feeding concrete bearing layer 4 with its compaction, followed by pressing sections of the cladding 2 between the gaps 6 to the inner surface of the shields 1 and the formation of ledges 7.

 The proposed design can be built in a different sequence.

 Figure 4 shows an example of sequential assembly, in particular, from left to right, where the waterproofing lining 2, pre-assembled into a roll, is sequentially installed by unwinding the roll already in local areas (between two adjacent runs 12), which are also closed by sequentially installed shields 1 fixed through runs 12.

 The proposed building structure allows us to simplify and facilitate the processes of its construction and, given the greater availability of individual operations, improve the quality of construction. In addition, a decrease in the thickness of the carrier layer is achieved by the value of the known anchoring ribs.

Claims (4)

 CONSTRUCTION STRUCTURE, including a protective layer in the form of a deck of separate panels with fixation elements and a continuous waterproofing lining, provided with folds covering the fixation elements, and a carrier layer of hardening material, interacting with the protective layer in the hook by means of fixation elements, characterized in that, with In order to reduce the material consumption and increase the manufacturability of the installation, the deck boards are installed with gaps, and the fixing elements are made in the form of filled with hardening material Azores between shields.  2. The construction according to claim 1, characterized in that the end surfaces of the mating shields are made concave.  3. The construction according to claim 1, characterized in that the fold is released beyond the size of the panels and is provided with an internal hard or soft shell with the formation of a carrier strip of a T-shaped cross section from hardening material.  4. The construction according to claim 1, characterized in that on the outside it is provided with rigid girders overlapping gaps covered by a fold released beyond the envelope of the shields, the girders having elements of communication with the carrier layer and deck shields.

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