RU2079623C1 - Building - Google Patents

Abstract

FIELD: construction of ground industrial buildings; applicable in construction of ground industrial buildings in zones with possible effect of explosions in cases of emergencies and catastrophes. SUBSTANCE: building is formed in transverse direction by two trapezoidal inverted-V roof covering trusses installed with one slope of top chord on the base and interconnected with each other in the upper joint by means of ridge inserts. T-girders with their flanges downward are laid on bottom chord of trusses in longitudinal direction. Laid on edges of building in longitudinal direction on the base are socle girders. In so doing, laid over bottom cords of trusses, flanges of T-girders and socle blocks is a layer of yielding material serving as support of rectangular plate of covering, trapezoidal plate of covering and blocks of lantern lights in the extreme rows, and angle deflectors are installed at the ends of lantern lights on the base. EFFECT: increased protective properties of industrial buildings from outside explosions and reduced injury effect of fragments of structure and glazing on people. 2 dwg

Description

 The invention relates to the field of construction of ground industrial buildings and can be used in the construction of these buildings in areas with the possible impact of explosions in accidents and disasters.

 Known design solutions for single and multi-storey industrial buildings. The frame and enclosing structures of such buildings are made in the form of reinforced concrete, metal and wooden structures (p. 80 101, 361 - 382/1 /, p. 341 354/2 /, p. 6 13, 227 234/3 / and p. 50 115/4 /).

 In addition, it is known that the most important industrial buildings need to be built buried or single and low-rise rectangular in plan. This reduces the windage of buildings and increases their resistance to the effects of an air shock wave during an explosion / 5 / (p. 62).

 The disadvantage of such buildings is their destruction during the overexposure to explosions, which leads to the formation of fragments and fragments of structures and glazing, as a result of which people are damaged and equipment is damaged.

 Closest to the proposed invention is a one-story reinforced concrete frame building containing foundation beams, trusses, light lamp blocks, steel ties, floor slabs and wall panels (p. 51, 52, fig. 24, p. 111, fig. 2.103 / 4 /).

 This building is taken as a prototype, the prototype is the base object.

 The disadvantage of such buildings is that they collapse with a slight over-calculated impact of explosions, which leads to the formation of fragments and fragments of structures and glazing, as a result of which people are damaged and equipment is damaged.

 The aim of the invention is to increase the protective properties of industrial buildings from external explosions, as well as reducing the damaging effects on people of debris and fragments of structures and glazing.

 This goal is achieved by the fact that the building trusses are made of gable trapezoidal, and part of the trapezoidal coating plates, and the building is equipped with corner fairings, T-beams and ductile material and is formed in the transverse direction by trusses, which are installed in pairs by one of the slopes on the base and interconnected in the upper castle by means of ridge inserts, and the T-beams are laid by shelves down the lower truss belt in the longitudinal direction of the building, and the foundation balconies and on the base along the longitudinal sides of the building, with a layer of compliant material placed on top of the lower girdle of the trusses, shelves of T-beams and foundation beams, on which rectangular coating plates are located, located along the extreme rows of trapezoidal coating plates and light lamp blocks, and corner fairings are installed based on the ends of the latter.

 The proposed building is shown in FIG. 1, 2 and consists of truss gable trapezoidal trusses 1, T-beams 2, foundation beams 3, rectangular cover plates 4, trapezoidal cover plates 5, light block 6, corner fairings 7, layers of compliant material 8 and ridge inserts 9.

 The building operates as follows: initially, an air shock wave acts on the corner fairings 7 and further, flowing around them, acts on the foundation beams 3, trapezoidal coating plates 5, blocks of light lamps 6 and rectangular plates of the coating 4. Thanks to the use of inclined surfaces of the blocks of light lamps 6 and the trapezoidal 5 and 4 rectangular coating plates reduce the amplitude of the effective excess reflection pressure due to the violation of the diffraction and flow regimes, which does not allow the formation of intense oh dynamic load on the reflection surface blocks glazed skylights 6, rectangular trapezoidal plate 4 and the cover 5. The highest excess reflection pressure is observed during diffraction by fixed rigid obstacles mounted vertically.

 In addition, under the influence of an air shock wave on the coating structure, the layers of compliant material 8 and ridge inserts 9 are deformed, which also reduces the intensity of exposure to an air shock wave in the phase of diffraction and flow.

 With the extreme compression of the layers of compliant material 8, the effect is transmitted to the T-beams 2 and the rafter gable trapezoidal trusses 1, thereby causing their deformation.

 With a significant excess of the impact of the air shock wave over the calculated one, the glazing of the light unit blocks 6 can be destroyed, but even in this case, the area of damage to people and equipment by glass fragments will be much smaller than from the glass fragments of openings in the vertical structures (walls) of existing industrial buildings. In that case, if for the blocks of light lamps 6 to provide explosion-proof glazing, the destruction of the glazing can practically be avoided.

 Thus, a significant increase in the protective properties of industrial buildings from external explosions, as well as a decrease in the damaging effect on people of debris and fragments of structures and glazing, is ensured.

Sources of information
1. Vakhnenko P.F. and others. Building structures of buildings and structures. M. Stroyizdat, 1980, 423 pp.

 2. Savchenko I.P. et al. Architecture. M. Higher School, 1982, 376 p.

 3. Designer reference. Typical reinforced concrete structures of buildings and structures for industrial construction. M. Stroyizdat, 1981, 488 pp.

 4. Designer reference. Typical reinforced concrete structures of buildings and structures for industrial construction. M. Stroyizdat, 1974, 351 p.

 5. Demidenko G. P. et al. Protection of national economy from weapons of mass destruction. Directory. Kiev: Vishka School, 1987, 256 pp.

Claims (1)

 The building, including foundation beams, roof trusses, light lamp blocks, steel ties, floor slabs and wall panels, characterized in that the building trusses are gable trapezoidal, and part of the trapezoidal shape plates, the building is equipped with corner fairings, T-beams and ductile material and is formed in the transverse direction by truss trusses, which are installed in pairs by one of the slopes on the base and are interconnected in the upper castle by means of ridge inserts, T-beams are laid with shelves down along the lower truss belt in the longitudinal direction of the building, and the foundation beams on the base along the longitudinal sides of the building, while a layer of ductile material is placed on the top of the lower truss belt, shelves of the T-rails and foundation beams, on which the rectangular coating plates located along the extreme rows are trapezoidal coating plates and blocks of light lamps, and corner fairings are installed on the base at the ends of the latter.

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