RU174031U1 - Horizontal guide for fixing tiles on the building facade - Google Patents

Abstract

The utility model relates to the field of industrial and civil construction, namely to the construction of suspension systems for heat-insulating cladding of building facades and structures with a ventilated air gap. A system for fixing tiles on the building facade, containing vertical profiles, horizontal guides made of sheet metal, brackets for attaching vertical profiles to the wall of a building, characterized in that the horizontal guides have two supporting platforms for attaching to vertical m profiles, while the point of attachment of the horizontal guide to the vertical profile is located above the fulcrum of the upper facing tile installed in the horizontal guide. The technical result is an increase in the strength of the horizontal guide in the vertical direction, resulting in a decrease in the likelihood of facing tiles falling out, violation of the integrity of the building’s facade and creating a situation dangerous to the life of a person located next to the facade of the building.

Description

Technical field

The utility model relates to the field of industrial and civil construction, namely to the construction of suspension systems for heat-insulating cladding of facades of buildings and structures with a ventilated air gap.

State of the art

Various technical solutions of suspension systems for the heat-insulating cladding of building facades and structures with a ventilated air gap are known from the prior art.

So known is the design of the mounting element for the facing panel (RF patent utility model No. 113286, publ. 12.02.2012).

Known mounting element for the cladding panel, containing at least one bar with a surface for mounting and with holes for mounting, rigidly connected to the fixing unit, the fixing unit has a thrust shelf that is perpendicular to the seating surface, a mounting rib that is perpendicular to the thrust shelf, and a fixing rib, which forms an angle with the seating surface, the surface for mounting the mounting element parallel to the seating surface of the fixing unit.

The disadvantage of this technical solution is the impossibility of manufacturing a horizontal guide from sheet metal, which results in an increased cost of manufacturing horizontal guides, which becomes especially overhead with small volumes of production.

The known design of the mounting profile for hanging tiles on the outer wall (RF patent invention No. 2545584, publ. 04/10/2015).

The disadvantage of this design is the increased cost of the suspension system due to the need to mount a large number of vertical profiles.

Closest to the claimed technical solution is a system of ventilated facade (RF patent utility model No. 143202, publ. 04/20/2014).

A system of a ventilated facade containing facing tiles, each of which has a downward-facing retaining protrusion, has a horizontal ledge on the front side and a ledge with a shelf directed downward in the lower part, and which are arranged to overlap one another with each other on their upper and lower edges in such a way that the shelf of each upper tile enters the ledge of the adjacent adjacent tile below, as well as the subsystem for attaching the facing tile to the building facade, I include vertical profiles.

The disadvantage of this technical solution is the weakened design of the horizontal profile, which can lead to the loss of tiles, violate the integrity of the facade of the building and create situations that are dangerous for the life of a person located next to the facade of the building.

Utility Model Essence

The problem to which the claimed utility model is directed is the problem of increasing the stability of the system for fixing the tiles on the facade of the building under adverse weather conditions, such as strong gusty winds, snow sticking, ice formation on the tiles, which leads to increased vertical loads on a system for fixing the facing tiles on the facade of the building, and, as a result, to the loss of the facing tiles, violating the integrity of the facade of the building and creating a situation, about passable for the life of a person located next to the facade of the building.

This problem is solved due to the fact that the design of the system for fixing the tiles on the facade of the building involves the use of a horizontal guide 5 in accordance with the utility model.

The use of a horizontal guide 5 having two supporting platforms 8.7, transferring the mounting location of the horizontal guide 5 from the lower part of the supporting platform to the upper supporting platform 7, all this increases the strength of the horizontal guide 5, reduces the deflection of the horizontal guide 5 under vertical load and increases the stability of the system for fastening facing tiles on the facade of the building in adverse weather conditions.

Brief Description of the Drawings

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a system for fixing tiles on the facade of the building of the proposed design

In FIG. 2 shows a profile of a horizontal guide of the proposed design.

In FIG. 3 shows the forces acting on the profile of the horizontal guide system for fixing the tiles according to the patent of the Russian Federation utility model No. 143202.

Figure 4 shows the forces acting on the profile of the horizontal guide of the proposed design.

Detailed description of utility model

In FIG. 1 shows a system for fastening a facing tile on a building facade of the proposed design.

The system for fixing the tiles on the facade of the building of the proposed design includes vertical profiles 2, brackets 3, horizontal guides 5. The system for fixing the tiles on the facade of the building is attached by brackets 3 to the wall 1. In the horizontal rails 5, the upper tiles 4 and lower facing tile 6.

In FIG. 2 shows a profile of a horizontal guide of the proposed design.

The horizontal guide 5 of the proposed design has an upper supporting platform 7, a lower supporting platform 8, a vertical shelf 9, an abutment 10.

We see that the design of the horizontal guide 5 allows it to be made of a sheet of metal, using standard bending, chipping and rolling equipment designed for the production of metal products in small batches.

In FIG. 3 shows the forces acting on the profile of the horizontal guide system for fixing the tiles according to the patent of the Russian Federation utility model No. 143202.

The horizontal profile 12 according to the patent of the Russian Federation utility model No. 143202 has one supporting platform for fastening to vertical profiles 2, while point A, at which the horizontal profile 12 is attached to the supporting plane 11 of the vertical profile 2, is located in the lower part of the supporting platform, and the load the weight of the upper facing tiles 4 installed in the horizontal profile 12 is applied at point B of the horizontal shelf of the horizontal profile 12 above the attachment point A. When the weight of the upper facing tiles 4 is affected by the horizontal the profile 12 at a right angle to the segment AB, the resulting force Fp acts, creating a bending moment M equal to M = Fp⋅a. The resulting force Fp has a horizontal component Fy and a vertical component Fz. In this case, when carrying out strength engineering calculations for bending, the thickness of the metal d of the horizontal profile 12 is taken into account.

Figure 4 shows the forces acting on the profile of the horizontal guide of the proposed design.

The horizontal guide 5 of the proposed design has two supporting platforms 7, 8 for attachment to the vertical profiles 2, while point A, in which the horizontal guide 5 is attached to the supporting plane 11 of the vertical profile 2, is located in the upper supporting platform 7, and the load is set in the horizontal guide 5 of the upper facing tiles 4 is applied at point B of the horizontal shelf of the horizontal guide 5 located below the attachment point A. Under the influence of the weight of the upper facing tiles 4, set ment of a horizontal guide 5, on the horizontal guide 5 acts resultant force Fp, is equal to the vertical component Fz, as the horizontal component Fy is compensated by the reaction force of the second support Fyn.

In this case, when carrying out strength engineering calculations for the bending of the horizontal guide 5, the width b of the vertical shelf 9 is taken into account.

Obviously, the width b of the vertical flange 9 is significantly greater than the thickness of the metal d of the horizontal profile 12.

Thus, without even going into the intricacies of strength calculations, it is easy to see that the strength of the horizontal guide 5 of the proposed design is significantly higher than the strength of the horizontal profile 12 according to the RF patent utility model No. 143202.

An increase in structural strength means that the horizontal guide will flex less under the same load.

Considering this issue, it is necessary to take into account weather conditions that are increasingly occurring in recent years, namely, sticking of wet snow, “ice rain”, the formation of ice on the tiles 4. All this can lead to a multiple increase in the vertical load on the horizontal guide 5 of the system , for fixing the tiles on the facade of the building.

This circumstance is especially important, considering that the overlap in the contact zone of the lower facing tile 6 and the horizontal guide 5, which keeps it from falling out, is insignificant and the deflection below the supporting horizontal guide 5 by 5..6 mm, in combination with an uneven wind load , capable of causing fluctuations in the design, creates a real danger that the lower facing tile 6 will disengage from the horizontal guide 5 holding it and fall out.

Given that the facades of modern buildings, on which a facade system is installed with fastening the facing tiles of the structure in question, sometimes reaches 30-40 m or more, and the weight of the facing tile 4 can be 5-6 kg, then when the facing tile 4 is torn off in the upper part the facade, if it falls down, creates a significant threat to the lives of people who are near the facade of the building.

The use of a horizontal guide 5 having two supporting platforms 7.8 in the vertical direction, transferring the attachment point of the horizontal guide 5 from the lower part of the supporting platform to the upper supporting platform 7, all this increases the strength of the horizontal guide 5, reduces its deflection, which reduces the likelihood loss of the lower facing tiles 6, violation of the integrity of the facade of the building and the creation of a situation dangerous to the life of a person located next to the facade of the building, and, ultimately, increased the stability of the system for fixing the tiles on the facade of the building in adverse weather conditions.

The technical result provided by the given set of features is to increase the strength of the horizontal guide in the vertical direction, which results in a decrease in the likelihood of facing tiles falling out, violating the integrity of the facade of the building and creating a situation that is dangerous for the life of a person who is close to the facade of the building.

Claims (1)

A horizontal guide for fastening facing tiles on the facade of the building, made of sheet metal, having a stop and a vertical shelf holding the facade tiles, characterized in that it has two supporting platforms for fastening to vertical profiles, while the point of attachment to vertical profiles is located above support points of the upper facing tile installed in the horizontal guide.

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