WO2014142776A1 - Load-bearing framework for a suspended facade of a building - Google Patents

Abstract

The invention relates to building. A load-bearing framework for a suspended facade of a building comprises a group of modules, each of which has at least one load-bearing bracket and at least one supporting bracket for fastening the module to a wall or to another load-bearing element of the building via a heat-insulating lining, and at least one vertical guide. Each module comprises at least one sliding component. The load-bearing and supporting brackets comprise at least one fixing element which enters into engagement with the outer surface of a side member of each of said brackets, wherein said side members are provided with a through aperture and openings. The side member of the load-bearing bracket is provided with at least two through openings, the side member of the supporting bracket is provided with a through aperture, and the inner side of the guide is provided with corresponding openings for fixing elements. The technical result is an increase in the range of adjustment of the position of the guide, and a reduction in labour expenditure during installation.

Description

 The supporting frame of the curtain wall

 The utility model relates to construction and can be used for curtain walls of various systems that are attached to walls or other load-bearing elements of a building.

A well-known system of a hinged ventilated facade of the building (RF Patent JY ^O 70525, IPC E04B2 / 00, published January 27, 2008), comprising facing panels and a frame including a group of modules, each of which has at least one supporting bracket and one support bracket, mounted on the wall, containing the base and sides perpendicular to it, a vertical guide designed for fastening the cladding panels and installed in the carrier and in the support brackets with the possibility of movement in them and fixing, drainage designed for installation new between the vertical rails with the possibility of interaction with them and fixing, in which the sides of the bearing and supporting brackets are made elongated, the vertical guide is made of an H-shaped section, its base shelf is located between its side walls, perpendicular to them, while the upper part of the vertical guide is located between elongated sidewalls of the bearing and supporting brackets with the possibility of fixing them, and at the other ends of the sides of the vertical guide, parallel to the base shelf, located lower shelves, made with notches and with longitudinal grooves for the seal, the drainage is made adjacent to the base shelf and sides, with the possibility of covering the inside of the vertical guide. The profile system according to the second embodiment further comprises mounting rails of cassette-type panel mounting units. The mounting slide is made in the middle of the shelf with a protrusion in which a hole is made for the fastener, with protrusions at the ends of the flanges, forming channels along the sidewalls for the support pin and interacting with the vertical guide. This design does not provide the possibility of carrying out its quick and technological installation on the wall or on another supporting element of the building.

10), выбранный за прототип, содержащий группу модулей, каждый из которых имеет, по меньшей мере, один несущий кронштейн и один опорный кронштейн для крепления модуля к стене или другого несущего элемента здания, и прикрепленную к ним направляющую для крепления облицовки экрана, в котором каждый модуль дополнительно содержит, по меньшей мере, одни салазки, установленные с возможностью перемещения вдоль направляющей с последующей фиксацией, а каждый несущий и опорный кронштейн дополнительно имеет, по меньшей мере, два фиксирующих элемента, которые входят в зацепление с наружными поверхностями боковин каждого из этих кронштейнов, при этом на указанных боковинах выполнены сквозные прорези и отверстия, через которые салазки и/или направляющая прикреплены к соответствующему кронштейну. Каждый модуль данного каркаса дополнительно содержит, по меньшей мере, одну прокладку, размещенную при закреплении кронштейна между его основанием и стеной или другим несущим элементом здания и изготовленную из материала, который обеспечивает предотвращение коррозии кронштейна и передачу тепловой энергии. Недостатком прототипа является высокая трудоемкость его монтажа через П-образную форму исполнения кронштейнов, что ограничивает доступ к крепежным элементам при закреплении кронштейнов на стене или на другом несущем элементе здания. Кроме того, степень компенсации термического расширения направляющей ограничена длиной проема в опорном кронштейне, через который направляющая крепится к нему. The well-known supporting frame of the hinged facade of the building (patent of Ukraine on 1466, IPC EV04/56, publ. 15.10.2002, bull.

10), selected for the prototype, containing a group of modules, each of which has at least one supporting bracket and one support bracket for mounting the module to a wall or other supporting element of the building, and a guide attached to them for attaching the screen lining, in which each module additionally contains at least one slide mounted for movement along the guide with subsequent fixation, and each supporting and supporting bracket additionally has at least two locking elements, to torye engage the outer surfaces of the sidewalls of each of these arms, wherein on said sidewalls is provided with through slots or holes through which the slide and / or the guide attached to a corresponding bracket. Each module of this frame additionally contains at least one gasket placed when fixing the bracket between its base and the wall or other load-bearing element of the building and made of a material that ensures the prevention of corrosion of the bracket and the transfer of thermal energy. The disadvantage of the prototype is the high complexity of its installation through the U-shaped form of the brackets, which limits access to the fasteners when fixing the brackets on the wall or on another load-bearing element of the building. In addition, the degree of compensation of thermal expansion of the guide is limited by the length aperture in the support bracket, through which the guide is attached to it.

 The basis of this utility model is the task of improving the well-known supporting frame of the curtain wall of the building, in which by re-arranging the shape of the brackets and the vertical rail and increasing the range of adjustment of the position of the rail connection with the support bracket, labor costs are reduced when mounting the carcass while ensuring free movement of the rail under climatic temperature effects.

The problem is solved in that it is proposed a supporting frame of the hinged facade of the building, which contains a group of modules, each of which has at least one supporting bracket and at least one supporting bracket for attaching the module to a wall or other supporting element of the building through heat-insulating gaskets, at least one vertical guide, each module contains at least one sliding part, mounted with the possibility of movement with subsequent fixation, the bearing and supporting brackets contain at least one locking element that engages with the outer surface of the sidewalls of each of these brackets, wherein said openings and openings are made on said sidewalls, in which, according to a utility model, the supporting and supporting brackets are made of an L-shaped profile, vertical the guide is made of a profile of a T-shaped section, and at least two through holes are made on the side of the supporting bracket, a through opening is made on the side of the support bracket, and on the inside The guide has holes for fixing elements. The implementation of the bearing and supporting brackets from the profile of the L-shaped section provides free access to the fasteners when fixing the brackets on the wall or on another load-bearing element of the building, allows you to speed up the installation time and ensure its necessary reliability.

 Also, the implementation of a vertical guide from the profile of the T-shaped section provides a reduction in the weight of the structure, which in turn reduces the load on the supporting bracket.

 Another advantage of this technical solution is that only at the side of the carrier bracket there are at least two through holes which are intended for fastening the carrier bracket with fixing elements, for example rivets, to the inner side of the guide. In the support bracket, such a connection is absent to better ensure freedom of movement of the guide under climatic temperature influences in order to reduce the internal loads in the structure that are caused by these influences.

 The invention is illustrated by drawings, in which Fig. 1 shows a diagram of an assembly of a bearing assembly of a proposed supporting frame, Fig. 2 is a bearing assembly, Fig. 3 is a diagram of an assembly of a supporting assembly, in Fig. 4 is a supporting assembly, in Fig. 5 - horizontal section of the supporting frame at the level of the supporting bracket, Fig.6 is a horizontal section of the supporting frame at the level of the supporting bracket, and Fig.7 is a diagram of the installation of the facing panel using the proposed technical solution.

The supporting frame of the hinged facade of the building (see Fig. 1-7) contains modules 1, each of which has a supporting bracket 2 and a support bracket 3 for fastening the module 1, for example, to the wall 4 through heat-insulating spacers 5 and a vertical guide 6. Each module 1 contains a sliding part 7 with a hole 8 (see Fig. 3, 6), which is installed with the possibility of movement with subsequent fixation. Bearing 2 and supporting 3 brackets (see Fig.1-7) are made of a profile of an L-shaped section. Two through holes 9 are made on the longer side wall of the carrier bracket 2 (see FIG. 1), and a through hole 10 is made on the longer side wall of the support bracket 3 (see FIGS. 3-4). The carrier 2 and the support 3 brackets are provided with fixing elements 11 (see Figure 1, 3-7). The locking elements 11 are designed to engage with the outer surface of the sidewall of the bearing bracket 2 (see FIG. 1) and through the holes 9 with the corresponding holes (not shown) on the inner side of the guide 6. The locking element 11 is designed to mesh with the outer surface of the sidewall of the support bracket 3 (see Fig.3-4) and through the through opening 10 with the hole 8 of the sliding part 7 and with a hole (not shown) on the inner side of the guide 6.

 Each module 1 contains (see Fig. 1-7) a vertical guide 6, which is made of a profile, for example, aluminum alloy, T-section.

 The bearing bracket 2 (the upper one with a vertical arrangement of the guide 6) acts as an indestructible support and perceives the wind influence and the weight of the structure, and the other, the supporting bracket 3, perceives only the wind effect.

 Installation of the proposed supporting frame is as follows.

The brackets 2 and 3 are fixed on the wall 4 or on another supporting building element with dowels 12 with washers 13 through the holes 14 on the shorter sidewall of the brackets 2 and 3. In addition, to prevent heat exchange between the metal structure of the curtain wall and heat-insulating gaskets 5 are placed under the supporting walls 4 of the building under each bracket of the brackets 2 and 3. These gaskets 5 are a plate that is made of a material that provides prevention of bracket corrosion and the transfer of thermal energy and is made, for example, of plastic. A heat-insulating layer 15 with a vapor-permeable membrane 16 is attached to the surface of the wall 4.

 To the longer sidewall of the support bracket 3 is fastened (Figs. 3-4) with the help of the fixing element 11 in the through hole 10, the sliding part 7, which is pre-connected to the guide 6, while adjusting the position of the guide 6 relative to the wall 4 (by the thickness of the wall enclosure ) A fixing washer 17 is placed between the locking element 11 and the through hole 10. Next, a vertical guide 6 is fastened to the longer side of the carrier bracket 2 (see FIG. 1) with two fixing elements 1 1, which are inserted into the holes 9 on the long side of the carrier bracket 2, and into corresponding holes (not shown) on the inside of the guide 6. The locking elements 11 may be, for example, rivets.

 A clammer 18 is mounted on the front side of the guide 6 (see Figs. 5-7), which is fastened with rivets 19. Next, a cladding panel 21 is inserted into the presser legs 20 of the clammer 18 (i.e., the lower row of the building facade is formed). Then again, the next clamp 18 is mounted on the front side of the guide 6, which is fixed with rivets 19. Next, the facing panel 21 is inserted into the presser legs 20 of the clammer 18 (i.e., the next row is formed). Thus, the installation of the panels is carried out.

b The proposed supporting frame of the curtain wall of the building is used for mounting curtain walls of various systems that are attached to walls or other load-bearing elements of the building.

Claims

Formula  The supporting frame of the curtain wall of the building, containing a group of modules, each of which has at least one supporting bracket and at least one supporting bracket for attaching the module to a wall or other supporting element of the building through heat-insulating gaskets, at least one vertical guide , each module contains at least one sliding part mounted for displacement with subsequent fixing, the supporting and supporting brackets contain at least one locking element, which is included in engagement with the outer surface of the sidewalls of each of these brackets, wherein said openings and openings are made on said sidewalls, which is characterized in that the supporting and supporting brackets are made of an L-shaped profile, the vertical guide is made of a T-shaped profile, moreover at least two through holes are made on the side of the supporting bracket, a through hole is made on the side of the support bracket, and corresponding holes for fixing are made on the inner side of the guide Suitable elements.