RU2794107C1 - Arrangement of a hinged ventilated facade for buildings and structures - Google Patents

Abstract

FIELD: industrial and civil engineering.

SUBSTANCE: invention relates to the field of industrial and civil engineering, and in particular to the design of a hinged ventilated cladding of buildings and structures, installed both in the construction of new buildings and in the reconstruction of previously operated structures using metal brackets. The technical result is to increase the reliability and rigidity of the clamps on the ribs of the carrier and support brackets, as well as to increase the productivity of work by simplifying and reducing the installation time of the facing panels. The technical result is achieved by the fact that the hinged ventilated facade for buildings and structures contains cladding panels and a frame, including a group of modules, each of which has one bearing bracket and one support bracket fixed on the wall, a vertical guide installed using the bearing and support brackets with the possibility of moving relative to them and fixing, while the bearing and support brackets are L-shaped, the base shelves of the brackets are designed for fixing on the wall, and the ribs have a notch on the outside and holes for a rivet, clamps are installed on the ribs of the brackets, made in the form L-shaped strips, with notches on the inner surface, the vertical guide is made with a T-shaped section, the rib located in the middle of the base is made with notches on both sides, interacting on one side with the notches of the bearing and support brackets, and on the other side with notches on the inner sides of the L-shaped clamps, while the holes for the rivet for connecting the ribs of the bearing and supporting brackets and the ribs of the vertical guides are located along the edge of the end part of the ribs of the bearing and supporting brackets, below which the clamps are cut in the body of the ribs and bent at an angle to the surface of the ribs of the brackets, forming a space for installing the ribs vertical guides, while the ribs of the bearing brackets have two clamps located in the upper part of the rib symmetrically to its longitudinal axis and equidistant from the side edges and the edge of the end part of the ribs, and the ribs of the support brackets have one clamp located in the upper part of the ribs directly on their longitudinal axis, while the fastening of the cladding panels on the vertical rails is carried out with the help of clips fixed on the vertical rails with rivets through the holes on the vertical rails.

EFFECT: increase in the reliability and rigidity of the clamps on the ribs of the carrier and support brackets, as well as increase in the productivity of work by simplifying and reducing the installation time of the facing panels.

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Description

The invention relates to the field of industrial and civil engineering, and in particular to the design of a hinged ventilated cladding of buildings and structures, hung both in the construction of new buildings and in the reconstruction of previously operated structures using metal brackets.

It is known to have a bracket device for hanging a facing plate on the outer wall of a building, made in the form of a stamped corner profile, having a sliding structure and consisting of the first part in the form of a fixed support bracket and the second part in the form of a movable bearing bracket, while the fixed support bracket is made in the form of a corner profile, and the movable bearing bracket is a metal plate, at one end of which there are bent shelf tongues that serve to install a guide for attaching a suspended facing plate - facade cladding (Utility model patent of the Russian Federation No. No. 16).

The disadvantage of this technical solution is the sliding bracket design, which requires a complex configuration of the contact surfaces of the fixed support bracket and the movable bearing bracket, as well as the presence of special fasteners between these elements, which leads to a laborious installation scheme and insufficient reliability of the supporting structure.

It is known that clamps (fasteners as part of load-bearing ventilated facades designed for tight fixation of various facing materials) are widely used, fixed with rivets or screws on guide elements (substructures or metal purlins), into which facade slabs are then inserted, for example, from porcelain stoneware. To hold the facade plates and their safe operation, various parts are used, the most common of which are clamps attached to the substructure with petals bent at a right angle, made of the same material as the base of the clamp (Patent for utility model of the Russian Federation No. 177101, publ. dated February 8, 2018, Bulletin No. 4).

It is known to fasten facing panels for external fences of buildings with the help of clamps, which are made in the form of plates, in the body of which tongues are cut and bent at right angles - stops for installing facing panels (Patent for utility model of the Russian Federation No. 26803, publ. from 10.07.2002 .).

It is known the device of clamps for various purposes for fastening facing plates of facades of buildings, for example, ordinary, starting and closing, each of which has a shelf for fastening to the surface to be lined, presser feet for interacting with the outer surface of the facing panel and a fixing stop protruding from the shelf for fastening ( Patent of the Russian Federation No. 2365718, published on August 27, 2009).

A device for a hinged ventilated facade for buildings and structures is known, containing facing panels and a frame, including a group of modules, each of which has at least one bearing bracket and one support bracket fixed on the wall, while the brackets are made elongated, a vertical guide, mounted with the help of the bearing and supporting brackets with the possibility of movement relative to them and fixation, the mounting slide, installed with the possibility of longitudinal movement and fixation, containing the base and the sidewalls perpendicular to it, with the possibility of installing the support pin between the sidewalls, drainage, characterized in that the bearing and supporting the brackets are made L-shaped, the shelves-bases of the brackets are designed for fixing on the wall, and the ribs have a notch on the outside and holes for the rivet, clamps are installed along the edges of the ribs, made in the form of L-shaped strips, with notches on the inner surface, a vertical guide is made of T-shaped section, the rib is located in the middle of the thickened base and is made with notches on both sides, interacting on the one hand with the notches of the carrier and support brackets, and on the other hand with notches on the inner sides of the L-shaped clamps, the mounting slide is made with a base covering a T-shaped vertical guide and having a protrusion in the middle part with a hole for the fastener and sidewalls perpendicular to it with the possibility of installing a support pin (RF Patent for utility model No. 93835, publ. dated 10.05.2010, Bull. No. 13).

The disadvantage of this technical solution is the low reliability of the clamps on the ribs of the carrier and support brackets due to their location along the side edges of the ribs, which can lead to their separation under dynamic or mechanical influences during their manufacture, installation of facing panels and operation of a hinged ventilated facade of buildings, a complex design of supporting brackets with two clamps instead of one, which is an excessive additional complication in their manufacture, as well as a complex and more time-consuming operation of fastening the cladding panels to vertical rails using sliding mounting slides.

The technical result that can be obtained by implementing the proposed invention is to increase the reliability and rigidity of the clamps on the ribs of the carrier and support brackets, as well as increase the productivity of work by simplifying and reducing the installation time of the facing panels.

To achieve this technical result, the proposed device for a hinged ventilated facade for buildings and structures, containing cladding panels and a frame, including a group of modules, each of which has one bearing bracket and one support bracket fixed on the wall, a vertical guide installed using a carrier and support brackets with the possibility of moving relative to them and fixing, while the bearing and support brackets are L-shaped, the shelves-bases of the brackets are designed to be fixed on the wall, and the ribs have a notch on the outside and holes for the rivet, clamps are installed on the ribs of the brackets, made in the form of L-shaped strips, with notches on the inner surface, the vertical guide is made of a T-shaped section, the rib is located in the middle of the base and is made with notches on both sides, interacting on the one hand with the notches of the carrier and support brackets, and on the other hand with notches on the inner sides L-shaped clamps, provided with rivet holes for connecting the ribs of the bearing and support brackets and the ribs of the vertical guides located along the edge of the end part of the ribs of the carrier and support brackets, below which the ribs are cut in the body and bent at an angle to the surface of the ribs brackets clamps, forming a space for installing the ribs of the vertical guides, while the ribs of the bearing brackets have two clamps located in the upper part of the rib symmetrically relative to its longitudinal axis and equidistant from the side edges and the edge of the end part of the ribs, and the ribs of the support brackets have one clamp located in the upper part of the ribs directly on their longitudinal axis, while the fastening of the cladding panels on the vertical rails is carried out with the help of clamps, which are fixed on the vertical rails with rivets through the holes on the vertical rails.

Introduction to the composition of the proposed device of a hinged ventilated facade for buildings and structures, rivet holes for connecting the ribs of the bearing and supporting brackets and ribs of vertical guides located along the edge of the end part of the ribs of the bearing and supporting brackets, below which the ribs are cut in the body and bent at an angle to the surfaces of the ribs of the clamp brackets, forming a space for installing the ribs of the vertical guides, the ribs of the bearing brackets having two clamps located in the upper part of the rib symmetrically about its longitudinal axis and equidistant from the side edges and the edge of the end part of the ribs, the ribs of the support brackets having one clamp, located in the upper part of the ribs directly on their longitudinal axis, and the fastening of the facing panels on the vertical rails is carried out with the help of clamps, which are fixed on the vertical rails with rivets through the holes on the vertical rails, allows you to get a new property, which consists in the possibility of eliminating the placement of clamps on the edges of the carrier ribs and support brackets due to the fact that the clamps are cut (by pressing) in the body of the ribs and bent them at an angle to the surface of the ribs of the brackets, which reduces the likelihood of their separation or damage under dynamic or mechanical influences during their manufacture, installation of facing panels and operation of a hinged ventilated facade of buildings, simplifying the manufacture of support brackets through the use of only one clamp, cut in the body of the support ribs and located in the upper part of the ribs directly on their longitudinal axis, as well as reducing the complexity of the operation of fastening the facing panels to vertical guides due to fastening with clamps, which are fixed on the vertical rails with rivets through the holes on the vertical rails, which, together, makes it possible to increase the reliability and rigidity of the clamps on the ribs of the bearing and support brackets, as well as to increase the productivity of facing work by simplifying and reducing the installation time of facing panels.

The present invention is illustrated by drawings, in Fig. 1 shows a drawing of the bearing bracket, Fig. 2 is a drawing of the support bracket, FIG. 3 shows a top view of the fastening of the cladding panel to the wall of the building, in Fig. 4 side view of the fastening of the cladding panel to the wall of the building, where:

1 - oval hole of the rib of the carrier bracket for movable fastening of the vertical guide to the bracket;

2 - round hole of the rib of the carrier bracket for fixed mounting of the vertical guide to the bracket;

3 - ribbed surface of the rib of the bearing bracket;

4 - clamps of the bearing bracket;

5 - rib bearing bracket;

6 - shelf-base bearing bracket;

7 - opening of the shelf-base of the bearing bracket for fastening to the wall of the building;

8 - oval hole of the rib of the support bracket for movable fastening of the vertical guide to the bracket;

9 - round hole of the rib of the support bracket for fixed fastening of the vertical guide to the bracket;

10 - ribbed surface of the rib of the support bracket;

11 - clamp of the support bracket; 12 - edge of the support bracket;

13 - shelf-base support bracket;

14 - opening of the shelf-base of the support bracket for fastening to the wall of the building;

15 - support bracket;

16 - thermal insulator plate;

17 - anchor dowel;

18 - facing panel (porcelain tiles);

19 - rivet;

20 - T-shaped vertical guide;

21 - ordinary clamp;

22 - starting clamp;

23 - corner clamp;

24 - bearing bracket.

The device of a hinged ventilated facade for buildings and structures is mounted and operates as follows.

Basically, modern facade systems are a multi-layer structure, consisting of a supporting frame and decorative cladding, designed to give the building a modern architectural look, as well as to increase the level of heat and noise protection of external walls. The durability and preservation of the appearance of such structures excludes further costs for the repair of building facades due to their resistance to atmospheric and man-made influences.

The device of a hinged ventilated facade for buildings and structures contains repeating elements: a bearing bracket 24 and a support bracket 15, made L-shaped and fixed on the wall of the building with anchor dowels 17, a T-shaped vertical guide 20 installed in the carrier 24 and in the support 15 brackets with the possibility of movement and fixation in them.

The T-shaped vertical guide 20 is a base (horizontal surface) connected at an angle of 90 degrees and a rib perpendicular to it, located in the middle of the base and made with double-sided notches.

The support brackets 24 are fastened by pressing the base shelf 6 of the support bracket against the building wall through holes 7 using anchor dowels 17.

The support brackets 15 are fastened by pressing the base shelf 13 of the support bracket to the wall of the building through holes 14 using anchor dowels 17.

The rib 5 of the bearing bracket 24 and the rib 12 of the support bracket 15 have notches on the outer side in the form of ribbed surfaces 3 and 10, respectively.

Bearing brackets 24 perceive horizontal and vertical loads, are installed in the upper or middle part of the T-shaped vertical rails 20, or at their junctions, while the guides 20 are attached to the bearing brackets 24 through round holes 2 of the ribs 5 of the carrier bracket 24 for a fixed connection .

The support brackets 15 perceive only horizontal loads, while the vertical guides 20 are attached to the support brackets 15 through the oval holes 8 of the ribs 12 of the support bracket 15 for a movable connection.

Installation of brackets 15 and 24 is as follows. The marking of the installation points of the bearing 24 and supporting 15 brackets on the wall of the building is carried out in accordance with the Technical Documentation for the project for the installation of a hinged ventilated facade. At the initial stage, the lower horizontal line of the installation points of brackets 15 and 24 is determined. The extreme points of the horizontal line are determined using a level and mark them with a marker. At the two extreme points, using a laser level and a tape measure, all intermediate points for installing the brackets are determined and marked with a marker. With the help of plumb lines lowered from the parapet of the building, vertical lines are determined at the extreme and intermediate points of the horizontal line. Next, mark with a marker the installation point of the bearing 24 and support 15 brackets on the vertical lines.

At the marked points, holes are drilled with a diameter and depth corresponding to the anchor dowels 17. Brackets 15 and 24 are attached to the wall with anchor dowels 17 through the plates of the thermal insulator 16.

Installation of T-shaped vertical guides 20 is carried out as follows. Vertical guides 20 are attached to brackets 15 and 24 with rivets 19.

The movable fastening of the guides 20 to the brackets 15 and 24 is carried out through the oval holes 1 of the ribs 5 of the bearing brackets 24 and the oval holes 8 of the ribs 12 of the support bracket 15 using rivets 19, while the rivets 19 must be in the center of the oval holes 1 and 8. This is necessary for temperature compensation.

The fixed fastening of the rails 20 to the brackets 15 and 24 is carried out through the round holes 2 of the ribs 5 of the carrier bracket 24 and the round holes 9 of the ribs 12 of the support bracket 15.

At the vertical joining points of two adjacent guides 20, it is necessary to provide a gap according to the project in order to compensate for temperature deformations.

Alignment of the T-shaped vertical guides 20 must be done in the plane of the facade and vertically. Alignment in the plane is carried out using a lace or a laser. Vertical alignment is carried out using plumb lines lowered from the parapet of the building or with a theodolite.

In the body of the brackets 15 and 24, clamps are cut and bent at an angle to the surface of the ribs 5 and 12, forming a space for installing the ribs of vertical guides 20, while the ribs 5 of the bearing brackets 24 have two clamps 4 located in the upper part of the rib 5 symmetrically relative to its longitudinal axis and equidistant from the side edges and the edge of the end part of the ribs, and the ribs 12 of the support brackets 15 have one clamp 11 located in the upper part of the ribs 12 directly on their longitudinal axis.

Fastening of facing panels 18 on vertical guides 20 is carried out with the help of clamps, which are fixed on vertical guides 20 with rivets 19 through holes on vertical guides 20.

Depending on the location of the facing panels 18 in the space, ordinary clamps 21, starting clamps 22 and corner clamps 23 are used for fastening.

Clamps 4 and 11, made in the form of L-shaped strips, with notches on the inner surface, interact with the edge of the vertical guides 20, made with double-sided notches, contacting simultaneously, on the one hand, with ribbed surfaces 3 of the ribs 5 of the bearing brackets 24 and ribbed surfaces 10 ribs 12 of the support brackets 15, and on the other hand with notches on the inner sides of the clamps 4 and 11.

Information sources

1. Utility model patent of the Russian Federation No. 83528, publ. dated 10.06.2009, Bull. No. 16.

2. Utility model patent of the Russian Federation No. 177101, publ. dated 08.02.2018, Bull. No. 4.

3. Utility model patent of the Russian Federation No. 26803, publ. dated 10.07.2002

4. RF patent No. 2365718, publ. from 27.08.2009.

5. RF patent for utility model No. 93835, publ. dated 10.05.2010, Bull. No. 13 - prototype.

Claims (1)

Hinged ventilated facade for buildings and structures, containing cladding panels and a frame, including a group of modules, each of which has one bearing bracket and one supporting bracket fixed on the wall, a vertical guide installed with the help of the bearing and supporting brackets with the ability to move relative to them and fixation, while the bearing and support brackets are L-shaped, the shelves-bases of the brackets are designed for fixing on the wall, and the ribs have a notch on the outside and holes for the rivet, clamps are installed on the ribs of the brackets, made in the form of L-shaped strips, with notches on the inner surface, the vertical guide is made of a T-shaped section, the rib located in the middle of the base is made with notches on both sides, interacting on the one hand with the notches of the carrier and support brackets, and on the other hand with notches on the inner sides of the L-shaped clamps, characterized in that the rivet holes for connecting the ribs of the carrier and support brackets and the ribs of the vertical guides are located along the edge of the end part of the ribs of the carrier and support brackets, below which the clamps are cut out in the body of the ribs and bent at an angle to the surface of the ribs of the brackets, forming a space for installation of the ribs of vertical guides, while the ribs of the bearing brackets have two clamps located in the upper part of the rib symmetrically relative to its longitudinal axis and equidistant from the side edges and the edge of the end part of the ribs, and the ribs of the support brackets have one clamp located in the upper part of the ribs directly on their longitudinal axis, while the fastening of the cladding panels on the vertical rails is carried out with the help of clamps fixed on the vertical rails with rivets through the holes on the vertical rails.

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