SU1114751A1 - Many-storied building - Google Patents

Abstract

MULTI-STORAGE BUILDING, with interconnected modular blocks forming a honeycomb structure with hexagonal prisms, and vertical end hexagonal panels, characterized in that. that, in order to increase the carrying capacity and reduce the material consumption of the building, the modular units are made of. elements of the trough-shaped section with external ribs, horizontal and inclined front ones of which have vertical and horizontal channels, respectively, are installed one on another by horizontal edges and interconnected with the formation of open profile shells, each face panel is complete with grooves on the internal side for installing end the ribs of the shells, with vertical bevels at the joints of its inclined faces, with protrusions in the lower and upper parts, with longitudinal channels along their top it and the lower edges and with through (Pm channels placed along the perimeter of the panel and along its central from the horizontal axis, with the end panels interconnected, the elements of the shells between each other and the end panels with the end edges of the shells are connected by means of weights missed in the channels. L

Description

The invention relates to the construction and can be used in the construction of multi-storey buildings from modular units. A building is known, consisting of modular blocks in the form of six-prism prisms, formed by two elements of a trough-shaped profile mirrored relative to each other and rigidly connected to each other and with frontal hexagonal panels 1. The disadvantage of this design is that significant expansion forces occur at the junction points of the trough-shaped elements, which leads to an increase in the material consumption of the structure and the limitation of the number of floors. The closest technical solution to the invention is a multi-storey building having interconnected modular blocks forming a honeycomb structure with hexagonal prisms and vertical end hexagonal panels 2. A disadvantage of the known solution is also the occurrence of significant spacer forces at the junctions of the side elements modular units, as well as end panels, load-bearing walls, which leads to an increase in material consumption of the structure and to limit the number of floors of buildings. The aim of the invention is to increase the carrying capacity and reduce the material consumption of the building. The goal is achieved by the fact that in a multi-storey building that has interconnected modular blocks, forming a honeycomb structure with hexagonal prisms, and vertical end hexagonal panels, the modular blocks are made of trough-shaped sections with external edges, the horizontal and inclined ends of which They have, respectively, vertical and horizontal channels installed one on another horizontally. The ribs are interconnected to form shells of an open profile, each end face panel is formed with grooves on VNU renney side edges for mounting the mechanical shells with vertical bevels at the junctions of its inclination. faces, with protrusions in the lower and upper parts, with separate channels along their upper and lower edges and with 1 51 through channels located along the perimeter of the panel and along its central horizontal axis, with the end panels between them, the elements of the shells themselves and The end panels with the end edges of the shells are connected by means of wires missed in the channels. Figure 1 shows the facade of the building, a fragment; figure 2 - the same, without the end panels; FIG. 3 is a view of the shell of an I-section; figure 4 section aa nafig 1; FIG. 3 shows a modular building block; Fig. 6 the placement of the modular building blocks in the plan. The multi-storey building includes interconnected modular blocks 1, forming a honeycomb structure with hexagonal prisms, and vertical end hexagonal panels 2. Modular blocks 1 are made of trough-shaped elements 3 with external ribs 4, are mounted on each other by horizontal edges 5 and are connected between with the formation of shells open profile. Each end panel 2 is made with grooves 6 along the inner side for mounting the end ribs 4 and 5 of the shells, with vertical bevels 7 at the junction points of its inclined edges 8, with protrusions 9 in the lower and upper parts, with longitudinal channels 10 along their upper and the lower gran 11 and with the through channels 12 and 13, placed along the perimeter of the panel and along its central horizontal axis. Horizontal and inclined end ribs 5 and 4 shells have vertical 14 and horizontal 15 channels, respectively, for passing 16 strands (in the form of cables, rods or bolts) connecting the elements of the shells to each other, end ribs 4 and 5 with face panels 2 and adjacent end panels 2 between themselves and the end panels 2 that are also missed in channels 10, 12 and 13. The internal cavities 17 between the blocks are filled with thermal insulation material 18. Under the action of vertical loads on the building, the forces that occur in modular blocks 1 are transmitted only on the front panel 2 by avoiding direct contact between the inclined side panels 19, and

The operational load bars in blocks 1 are perceived by the overlap panels 20 and the side panels 19 and are also transmitted to the end panels 2, while the expansion forces occur in the end panels 2 are perceived by the horizontal straps 21, which ensure the compression of the panels 2 as in the case that generally increases the bearing capacity of the building,

The lamination of the membranes, obtained in the process of combining the trough-shaped elements 3 among themselves, reduces the stresses in the outer layers of the panels 20 of the overlap.

The invention allows to increase the bearing capacity of the building, as well as to reduce material consumption and increase the number of floors of buildings from modular units.

In addition, the proposed building design provides improved sound and heat insulation and reduced labor intensity.

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Claims (1)

MULTI-STOREY BUILDING, having interconnected modular blocks forming a honeycomb structure with hexagonal prisms, and vertical end hexagonal panels, characterized in that, in order to increase the bearing capacity and reduce the material consumption of the building, the modular blocks are made of. elements of a trough-shaped section with external ribs, horizontal and inclined end of which have vertical and horizontal channels, respectively, are mounted on top of each other by horizontal ribs and interconnected to form shells of an open profile, with each end panel made with grooves on the inside for installation of end shell ribs, with vertical bevels at the junction of its inclined faces, with protrusions in its lower and upper parts, with longitudinal channels along their upper and It faces and with through channels, arranged around the perimeter of the panel and at its central horizontal axis, said panel Mechanical each other between a shell elements and end panel with the end edges of the shells are connected by means of cords, missed in the channels. SU „., 1114751 Fig 1 1 ‘1114751 I