RU142845U1 - BUILDING STRUCTURE FOR SUSTAINABILITY OF THE FARM - Google Patents

Abstract

Building construction for ensuring the stability of the truss, consisting of two pairs of three interconnected rod elements and anchor plates, characterized in that it is equipped with support clamps, moreover, the fastening of the rod elements between themselves, to the support clamps that are installed on the lower truss belt and to the anchor plates embedded in the foundation of the columns, made in the form of articulated joints.

Description

The building construction to ensure the stability of the farm, relates to the construction industry, namely the reinforcement of building structures, and can be used to prevent the collapse of reinforced concrete farms both in the construction of new industrial buildings and structures, and in the reconstruction of previously operated special purpose buildings exposed to explosive hazards.

A known reinforcement design by a failed metal portal, including metal struts, anchor plates, support angles and wedge-shaped gaskets. The known construction of beam reinforcement is realized by unloading the beam by installing an additional support in the form of struts in the existing column foundation and the inclusion of an intermediate support in the work. The inclusion of the support in the work is done by wedging the beam. This design reinforces reinforced concrete beams in the zone of action of maximum moments (see, for example, the study guide, Baranov TI, Lavrova OV “Strengthening reinforced concrete structures in the zone of action of transverse forces based on frame-rod models” published by Penza : PGUAS published in 2010).

The disadvantages of this design are the decrease in the working space of the span. The need to stop production at the enterprise during installation works.

The closest technical solution is the building construction for ensuring the stability of beams, consisting of two pairs of three interconnected rod elements and anchor plates, interconnected by bolts or welding (depending on the climatic region). The fastening of the rod elements with the column is carried out by welding with steel plates, bottom fastened with anchors to the column at the base of the column, and on top are bolted. The fastening of the rod elements to the crane beam is carried out by bolts or by welding (depending on the climatic region) to a steel plate welded to the crane beam (see, for example, typical structures, products and units of buildings and structures, 2.440-1 series “Steel structures of industrial structures buildings ”issue 4“ Knots of brake structures and vertical ties along the columns ”, ed. M: TsITP GOSSTROY USSR, published in 1984).

The above technical solution is the closest to the proposed one and is selected as a prototype.

The disadvantage of this design is the presence of rigid bonds at the junction of the rod elements and the complexity of installation due to the large number of welded joints. When loading in places of rigid bonds, the maximum moment and additional stresses are formed, which does not ensure the preservation of the bearing capacity of the truss during the destruction of the column.

The utility model is based on the task of changing the design to maintain the load-bearing capacity of the truss during column destruction and simplifying the installation of the building structure.

The problem is solved in that in the building structure to ensure the stability of the truss, consisting of three interconnected rod elements and anchor plates, it is equipped with support clamps, and the fastening of the rod elements between themselves, to the support clamps that are installed on the lower truss belt, and to the anchor the plates embedded in the foundation of the columns are made in the form of articulated joints.

Since the building structure is equipped with support clamps, and the fastening of the rod elements between themselves, to the support clamps that are installed on the lower girder of the truss, and to the anchor plates embedded in the foundation of the columns, are made in the form of articulated joints, which simplifies the installation of the structure and ensures the preservation its bearing capacity when breaking columns.

The graphic material shows the building structure to ensure the stability of the farm, side view.

The building construction for ensuring the stability of the farm consists of two pairs of three interconnected rod elements made in the form of braces 2, 3 and 4 pivotally hinged to each other 8. Braces 2, 3 are pivotally mounted on supporting clamps 6 and 7 installed on the lower belt of the farm 9, braces 4 are pivotally attached to anchor plates 5 by hinges 8. Anchor plates 5 are embedded in the foundation of columns 1.

Assembly of the structure is as follows.

Braces 2 and 3 with one of their ends by hinges 8 are attached to the supporting clamps 6 and 7, respectively, by hinges 8, and braces 4 through the same hinges 8 are connected at one end to interconnected braces 2 and 3, and the other ends of braces 4 are connected through their hinges 8 to the corresponding anchor plates 5, which are embedded in the foundation of columns 1. After installation, the braces 2 and 3 with truss 9 form a rigid figure in the form of a triangle. Accordingly, the braces 2 and 4 with the column 1 also form a triangle.

When one of the columns 1 of the reinforced span is destroyed, the forces previously perceived by the destroyed column 1 are redistributed to the polygonal system formed by the rod elements made in the form of braces 2, 3, 4 connected by hinges 8. Moreover, in all the rod elements made in the form of braces 2, 3, 4, internal compression forces are formed. To ensure the stability of the entire structure, it is necessary to ensure strength and stability in all elements of the reinforced structure. To this end, the selection of the cross-section of the elements ensuring the functioning of the structure during the destruction of one of the columns 1 of the reinforced structure is performed.

Claims (1)

Building construction to ensure the stability of the truss, consisting of two pairs of three interconnected rod elements and anchor plates, characterized in that it is equipped with support clamps, and the fastening of the rod elements together, to the support clamps that are installed on the lower truss belt and to the anchor plates sealed in the foundation of the columns, made in the form of articulated joints.