RU175065U1 - Outrigger belt - Google Patents

Abstract

The utility model relates to the field of construction, namely, to structures used in the construction of high-rise buildings and structures, and is intended to increase the resistance of buildings and structures to progressive collapse. The technical result is to reduce the consumption of material for manufacturing an outrigger belt by using a perforated outrigger belt when connecting floors of buildings and structures. The essence of the utility model is that the outrigger belt, including a monolithic structure, Natively contains regular perforations in the form of circular holes located around the perimeter of the floor.

Description

The utility model relates to the field of construction, namely to the structures used in the construction of high-rise buildings and structures and is intended to increase the resistance of buildings and structures to progressive collapse.

The known construction of the outrigger floor with rectangular cutouts (Chernukha N.A., The optimal position and design of the outrigger systems in high-rise buildings // Construction of Unique Buildings and Structures, 2015, No. 9 (36), pp. 19-27), however, it has the following disadvantage: significant areas of stress concentration lead to the appearance of vertical cracks during operation of the structure.

Known communication frame of the building (patent RU No. 2418916, Е04В 1/00, published on 05/20/2011), which contains beams (crossbars) of one direction, struts of the other direction and braces of connections. The spacers are lattice with parallel belts and pivotally attached to the columns along the belts, lattice racks with parallel belts with a gap from the columns are installed between the struts and attached to them in several nodes along the height of the floors and to the struts along the belts are articulated, and the tie braces between the struts and racks fastened to struts in any node except the one adjacent to the column. The disadvantage of this design is the low horizontal stiffness, the complexity in the manufacture, transportation and installation, has a high metal consumption.

The objective of the utility model is to reduce material consumption.

The essence of the utility model is that the outrigger belt, including a monolithic structure, additionally contains regular perforations in the form of circular holes located around the perimeter of the floor.

The technical result is to reduce the consumption of material for the manufacture of outrigger belt due to the use of perforated outrigger belt in the construction of connecting floors of buildings and structures.

The developed floor structure is a rigid spatial frame designed to increase the building's resistance to progressive destruction. The advantages of this design are the low consumption of material for manufacturing (perforation of the outrigger belt reduces material consumption), low weight, the absence of stress concentration zones, the ability to give the building a unique architectural image.

The essence of the utility model is illustrated by the drawing, where in FIG. 1 shows an outrigger belt with a staggered perforation pattern (side view), FIG. 2 shows an outrigger belt with a series of circular holes (side view).

The outrigger belt is a monolithic perforated wall 1 of the outrigger belt of the connecting floor with regular perforation in the form of circular holes 2 located around the perimeter of the floor. Perforation can reduce material consumption, reduce the weight of the structure.

The optimal perforation of the outrigger belt is selected for a particular case and depends on the structural design of the building, its number of storeys and the location of the outrigger floors.

For the outrigger belt device, a shuttering structure is mounted directly on the construction site, which repeats the shape of the outrigger belt 1 with holes 2. A spatial reinforcing cage is installed on the shuttering structure and concrete is poured. The monolithicity of the reinforced concrete structure is ensured by continuous concreting.

Claims (1)

The outrigger belt, including a monolithic wall of the connecting floor, located around the perimeter of the building, additionally contains regular perforations in the form of circular holes located around the perimeter of the connecting floor of the building.

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