RU2399732C1 - Method for erection of suspended facade bearing structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for erection of suspended facade bearing structure includes calculation of positions of bearing fixing units on wall, which consist of bracket and horizontal guide joint, fixation of bearing units brackets to wall, fixation of vertical guides to units. Grid of bearing units and guides in calculations is attributed to more compact elements of wall. Points of bearing unit brackets fixation on soft material are not arranged in plane of vertical guides. Pliancy of bearing units fixed on more compact wall elements, and also load onto bearing units are varied so that load perceived by bearing units fixed on soft material is below limit permissible value for this material of building barrier wall.

EFFECT: improved reliability in suspended facades erection.

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Description

The invention relates to the construction and can be used in the construction of curtain walls.

A device for attaching ventilated facades is known (RF patent No. 41753), characterized in that the side shelves of the rails are connected to the brackets using bolts, and spacers are placed between the shelves at the place of their connection with the brackets.

A known method of mounting facade cladding panels (patent No. 2268970, RU, 11.24.2003), including mounting on a wall of an arm of a telescopic load-bearing assembly, fixing on the end surface of the insert of the load-bearing assembly of a U-shaped in cross-section of the load-bearing profile and mounted elements on the load-bearing profile and fixing by means of hinged elements of the front panels, the coordinate grid is preliminarily calculated in accordance with the dimensions of the panels and load-bearing profiles are used with groups of elongated holes in their bottom for cr The heating of the hinged elements and bearing profiles and the bearing units with elongated inclined holes on the side surfaces of the insert and the bracket, the large axes of which are intersected relative to each other during the installation of the cladding panels, are then fixed on the wall to be cladded, the bearing nodes in the nodes of the coordinate grid with placement the geometric center of the bearing node in the coordinate grid node; bearing profiles are attached to the bearing nodes parallel to the coordinate grid line with the installation of a crosshair of large axes openings of the end face of the insert and the corresponding group of elongated holes of the bearing profile by adjusting the bearing profile in horizontal and vertical planes relative to the bearing node, respectively, within ± 0.5Lsinα and ± 0.5Lcosα, where L is the length of the elongated inclined hole of the bracket or insert, α - the angle of inclination of the axis of the elongated hole on the end platform of the sliding insert to the longitudinal axis of the end surface, fix them in the overlap with fasteners, then attach the hinged elements to the supporting profile Options with a cross the major axes of the elongated holes hinged elements and of the corresponding group of elongated holes bearing profiles are fixed in their fastenings and crosshairs mounted facing panels.

A known method of installation of facade cladding panels (patent No. 2268971, RU, 11.24.2003), including mounting to the wall of the bracket of the bearing assembly, fixing on the end surface of the bearing assembly of a U-shaped bearing profile, mounted elements on the bearing profile and fixing by means of mounted elements of the facade facing panels, in this case, the coordinate grid is preliminarily calculated in accordance with the dimensions of the facing panels, on the wall exposed to the facing, on the coordinate grid lines in each length range of fixed supporting at least one load-bearing unit is installed at a distance from the mesh node equal to or a multiple of the hole groups on the load-bearing U-shaped profile, load-bearing profiles are fastened to the load-bearing nodes parallel to the coordinate grid lines with the intersection of the major axes of the elongated end-hole openings and large axes of elongated holes of the corresponding group of holes of the supporting U-shaped profile and fix them in the crosshairs with fasteners, then to the supporting profile in accordance with the nodes of the coordinate grid are mounted on spring elements with the intersection of the large axes of the elongated holes of the group of holes of the mounted elements and the corresponding large axes of the elongated holes of the group of holes of the bearing U-shaped profile and fix them in the crosshairs with fasteners.

Known methods of mounting hinged facades, providing for uniform distribution of the load on the load-bearing assemblies, are difficult to apply for buildings with inhomogeneous wall fencing, as the ultimate loads for different materials can vary significantly.

The aim of the invention is the provision of the construction of hinged facades for buildings with heterogeneous material wall fencing.

The goal is achieved due to the fact that the grid of load-bearing nodes, which consist of the connection of the bracket and the horizontal guide, and the guides are tied when calculating the loads to more dense wall elements.

At the same time, the attachment points of the brackets that take the load from the facade on the wall elements of less dense material (1 in the drawing) are not placed in the plane of the vertical guides. As a result, horizontal guides work in the zone of elastic deformation (5 in the drawing). Having more flexibility than vertical guides, they allow you to redistribute the load from the horizontal guide to the vertical one and further to the bearing assembly fixed in a denser material. Thus, the main part of the load is redistributed along the vertical guide to the bearing units located in a denser material. In addition, due to this, thermal stresses appear only in the areas between the attachment points, which does not lead to unacceptable linear movements of the structure.

At the same time, the flexibility of the bearing units of the vertical guide, which are fixed in the denser wall material (4 in the drawing), is varied so that the compliance of the bearing units with the required loads is achieved.

The loads are distributed between the load-bearing nodes of the load-bearing structure of the hinged facade in such a way that the load-bearing nodes fixed on the wall elements of denser material take a load greater than the load-bearing nodes on the wall elements of less dense material.

As a result, the range of application of the technology of curtain walls is expanded, the reliability of the construction of curtain walls on buildings with heterogeneous material walls is increased.

The implementation of the invention

The supporting structure of the hinged facade consists of vertical and horizontal guides parallel to the wall, attachment points to the wall. The wall mounts, which are a bracket or a group of brackets, are fixed to the wall using wall dowels. Horizontal guides are attached to the free ends of the brackets, onto which vertical guides are mounted.

The connection of the bracket of the mounting unit and the horizontal rail is a bearing unit.

A wall fence may consist of sections of concrete floors and sections of walls made of brick or foam concrete. In this case, the flexibility of the bearing units fixed on the concrete is reduced, for example, by increasing the number of brackets in one bearing node or changing the distance between the brackets in the bearing node, and the number of brackets on the wall is reduced by determining the position between the vertical guides.

Description of drawings

The drawing shows an element of the frame of the curtain wall. 1 - brackets of the bearing assembly fixed on less dense material, 2 - horizontal guide, 3 - vertical guide, 4 - bearing assembly, mounted on more dense material, 5 - zone of elastic deformations.

Claims (1)

The method of mounting the load-bearing structure of the curtain wall facade, including calculating the positions on the wall of the load-bearing fasteners, which consist of connecting the bracket and the horizontal rail, fastening the load-bearing brackets to the wall, fastening to the vertical rail units, characterized in that the grid is fastened to the load-bearing nodes and guides to more dense wall elements, the attachment points of the brackets of the bearing nodes on soft material are not located in the plane of the vertical guides, the compliance of the bearing nodes, signal- ing to denser cell walls, as well as the load on the bearing assemblies, can vary so that the load is fixed on the received soft material bearing units, it was less than the maximum allowable for the wall material of the building envelope.

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