RU67134U1 - DEVICE FOR FASTENING FRONT PLATES - Google Patents

Abstract

A device for attaching facade plates contains a bearing unit in the form of combined planks-holders of the upper (1) and lower (2), supporting profile (3) and an intermediate element (6). Facade plates (5) are made with longitudinal grooves along the horizontal end surface. Each holder strip (1) and (2) by means of ribs (8) and (9) (Fig. 3) engages with two opposite surfaces of the longitudinal grooves of the facade slabs (5), forming a spike-groove connection. Each - and the supporting profile (3), and the intermediate element 6 in cross section with a horizontal plane has an L-shaped profile, one shelf of which is facing the surface (4) exposed to the lining, while the other shelf of the intermediate element is designed to install the bearing unit. The supporting profile (3) is fixed to the surface (4) to be cladded by means of a set of bolted joints (10). The intermediate element (7) in the horizontal plane is also an L-shaped section having a shelf facing the surface (4) subjected to facing. The upper bracket (1) and the lower bracket (2), in cross section, are characterized as two adjacent U-shaped elements with differently large side shelves, the ends of which are bent outward. In this case, the upper bracket-holder (1) and the lower bracket-holder (2) are interconnected in such a way that the support flanges are turned in opposite directions, lie in the same vertical plane, forming ribs (8) and (9), through which holder strips mesh with two opposite surfaces of the longitudinal grooves of the facade slabs (5), forming a spike-groove joint. In the gaps between the facade plates there are inserts made in the form of decorative shaped elements. 14 s.p. f-ly. 3 ill.

Description

The invention relates to fastening devices and assemblies for flush mounting of elements, in particular facade panels.

A device for fixing cladding plates can be used in the field of construction and reconstruction or repair of buildings and structures using building structures intended for complex work to clad surfaces of rooms, both walls and their ceilings, with hinged, including suspended, panels, mainly decorative or functional, for example, heat or sound insulating, made of a material having layers that provide protection from electromagnetic waves, or in the form of fencing openings in the bunk Noah in the inner wall or partition.

Facing materials in the design of a ventilated facade perform a protective and decorative function. They protect the insulation, facing structure and wall of the building from damage and atmospheric influences. At the same time, cladding panels are the outer shell of the building, form an aesthetic appearance, are its hallmark.

The most successful utility model can be used for cladding building facades with artificial materials, such as ceramic granite.

Currently, there is a large selection of facade panels for wall cladding. In addition to their appearance, they differ in material, size and type of fastening (visible, invisible).

A substructure is its load-bearing system, the element responsible for fixing the facade material to the wall. Simplified, it can be described as a system of brackets on which vertical and horizontal guides are fixed, and the elements by which the facade material is attached to the guides.

Visible fastening is simpler by the so-called clamps made of stamped sheet.

Flush mounting requires additional processing of facade panels, for example:

- for porcelain tiles it is: milling grooves, for example, of the “dovetail” type from the back of the plate for installation of the mounting “clip”;

- drilling blind holes on the back of the plate for the installation of mounting screw plugs;

- drilling blind holes in the end face of the plate for the installation of mounting pins.

Both types of fastening allow fast and easy to fasten facade elements to the supporting structure.

There is a method of attaching a facade panel using an anchor company Fischer (http://santal-m.ru/), from the back, which makes it invisible from the front side.

Attempts to simplify the installation of facade slabs on the walls led to the appearance of a device for fastening facade slabs, known from German patent application DE 4023523 A1 (CL EV 2/96 02/14/91). The known device contains at least two load-bearing profiles, each of which by means of transverse ribs engages with two opposite surfaces of the facade plates, forming a spike-groove connection, and a support profile fixed to the surface to be faced. In addition, the device contains an intermediate element connected to the supporting profile and rigidly connected to the supporting element. The supporting profile is covered by the shelves of the intermediate profile and connected to the latter by means of bolts.

Such a structural embodiment of the above device requires leveling the surface exposed to the cladding, increases the installation time of the plates.

The known device is characterized by low performance. The disadvantages of this design include the complexity of installation due to drilling holes, installation of bolts and operational vibration.

In addition, when using the above device, it is not possible to place a layer of insulation between the wall and facade panels due to the limited gap between them.

A device is known for attaching facing plates (RU 2180935 C2 MPK7 E04F 13/08, EV 2/96, publication date: 2002.03.27 - prototype). The known device for attaching cladding plates contains bearing profiles, each of which by means of ribs engages with two opposite surfaces of the cladding plates, forming a spike-groove connection, a support profile fixed to the surface to be coated, and an intermediate element associated with the bearing profile and reference profile. The supporting profile is fixed on the intermediate element, which is covered by the supporting profile so that in the direction perpendicular to the exposed surface of the cladding, an adjustable gap is formed between the intermediate element and the supporting profile. Each supporting profile and the intermediate element in the section with a horizontal plane has a U-shaped profile, the shelf of which is facing the surface exposed to the lining, while the U-shaped section of the intermediate element from the open side has outgoing from

lateral sides in the opposite direction of the supporting shelves designed to install load-bearing elements.

The technical solution known from the publication is the closest to the claimed invention in terms of the combination of essential features and the achieved result.

The disadvantages of the known design include insufficiently high operating conditions, high material consumption and low reliability of fixing of facade plates.

The present invention solves the problem of developing the optimal design of a protective and decorative wall cladding and the method of its fastening.

The technical result obtained in this case consists in increasing the accuracy and reliability of fixing the facade plate in the protective and decorative wall cladding and, accordingly, ensuring reliable invisible fastening of the cladding, giving the appearance of the facade a presentability and unique durability, increasing the fire resistance of the wall fencing due to the lack of fasteners in the invisible panels fastenings.

This is achieved due to the fact that in the device for attaching facade plates containing a bearing assembly having profiles that, by means of ribs, engage with two opposing surfaces of the facade plates, forming a tenon-groove connection, a support profile in the form of an arm fixed to the surface subjected to facing, and an intermediate element associated with the bearing unit and with the supporting profile, according to the utility model, a factory facade plate with longitudinal grooves along the end horizon is used as a facade plate Flax surface, each - and the supporting profile, and an intermediate element in the horizontal plane section has a T-shaped profile, one flange of which faces the surface to be wall, while the other intermediate shelf element is intended for installation of the carrier unit. The support profile is fixed to the surface exposed to the cladding by means of a bolt joint kit. The intermediate element in the horizontal plane is also an L-shaped section having a shelf facing the surface to be faced. The bearing unit consists of two combined profiles, made in the form of a bracket-holder for the upper and bracket-holder for the lower, in cross section which are two combined, U-shaped profiles, each of which contains a wall and differently sized side flanges perpendicular to it. The ends of the shelves are bent outward. In this case, the upper bracket and the lower bracket are interconnected in such a way that

the support flanges are turned in opposite directions, lie in the same vertical plane, forming ribs, by means of which the support bars engage with two opposing surfaces of the longitudinal grooves of the facing plates, forming a spike-groove connection.

Each supporting profile is fixed on one of the supporting shelves of the intermediate element through a set of bolted connections.

The supporting element in the form of a bracket for the upper one is characterized by a U-shaped unequal cross-section, with an enlarged shelf and the edges bent inward.

The lower bracket is characterized by a complex U-shaped cross-section with a shelf bent outward at a right angle and a second side bent twice at a right angle.

In the gaps between the facade plates there are inserts made in the form of decorative shaped elements.

The intermediate profile, support element and bearing profiles are made of steel or structural aluminum alloy.

The implementation of the horizontal seam strip with sections bent at different angles, one of which is straight, will ensure the flow of water so that the water does not fall under the profile.

Such a constructive implementation of the device leads to a simplification of its installation and a reduction in the time of facing work.

The device can be used when performing wall as well as roofing, forming the coating or roof of the fencing, both during construction and reconstruction of buildings and structures to ensure the required heat engineering qualities and ensure moisture removal.

The fastening of the intermediate element in the supporting profile with the formation of an adjustable gap between them leads to the location of the bent shelves of all intermediate elements in one plane, to which the bearing profiles are subsequently attached. Thus, compensation of the unevenness of the surface to be coated occurs.

Other objectives and advantages of the invention will become more apparent from the following specific example of its implementation and the drawings, in which:

Figure 1 - device for fastening facade plates, General view;

Figure 2 is a fragment of the structural design of the device for fastening facade panels, General view.

Figure 3 is a fragment of the structural design of the bearing node, General view.

The positions in the figures indicate: upper bracket-holder 1, lower bracket-holder 2; movable bracket 3; facing surface 4, facade plate 5, L-shaped vertical profile 6; strip of the vertical seam 7; rib 8; rib 9; bolt connection kit 10; support shelf 11; support shelf 12; wall 13; wall 14; insulation 15; rivet 16.

A device for fastening facade panels, according to a utility model, contains (Fig. 1) a supporting unit in the form of combined support strips for upper 1 and lower 2, support profile 3 and intermediate element 6. Facade plates 5 are made with longitudinal grooves along the horizontal end surface . Each holder strip 1 and 2 by means of ribs 8 and 9 (Fig. 3) engages with two opposite surfaces of the longitudinal grooves of the facade plates 5, forming a spike-groove connection. Each - and the supporting profile 3, and the intermediate element 6 in cross section with a horizontal plane has an L-shaped profile, one shelf of which is facing the surface 4 exposed to the lining, while the other shelf of the intermediate element is designed to install the carrier unit. The supporting profile 3 is fixed to the surface 4 exposed to the lining by means of a set of bolted joints 10. The intermediate element 7 in the horizontal plane is also an L-shaped section having a shelf facing the surface 4 to be lined. The upper bracket-holder 1 and the lower bracket-holder 2, in cross section, are characterized as two adjacent U-shaped elements with different side flanges, the ends of which are bent outward. In this case, the upper bracket 1 and the lower bracket 2 are interconnected in such a way that the support flanges are turned in opposite directions, lie in the same vertical plane, forming ribs 8 and 9, by means of which the carrier brackets engage with two opposite surfaces of the longitudinal grooves of the facade plates 5, forming a spike-groove type connection. Each supporting profile is fixed on one of the supporting shelves of the intermediate element 7 by means of a set of bolted joints 10.

All structural elements forming a device for fastening facade panels are made of steel and / or structural aluminum alloy subjected to anodization.

The installation of the device for fastening the facade slabs is as follows.

On the surface of the wall exposed to the lining, support profiles 3 are mounted by means of anchor bolts and nuts, located at a predetermined distance from each other vertically and horizontally. After which, vertically insert into the supporting profiles 3

intermediate element 6 of limited length, due to the need for gaps to compensate for its thermal expansion and going into the cavity of one of the supporting profiles. The intermediate element 6 is inserted into the supporting profile 3. Regardless of the relief of the wall being faced, the supporting shelves of the intermediate elements 3 are installed in one vertical plane by adjusting the gap. Then the intermediate element 6 and the supporting profile 3 are connected by fasteners - bolts and nuts. Following this, the supporting profiles are installed by the support flanges 11 on the support flanges of the intermediate elements 3 and fixed by means of fasteners 10. And, finally, the facade plates 6 are engaged in the form of a tongue-and-groove with vertical ribs 8 and 9 of the bearing profile.

Thanks to the device according to the utility model, wall cladding can be carried out both from the bottom up and from top to bottom.

Thanks to the above-described device, the productivity of facing work per worker is significantly increased.

The device according to the utility model can be used not only for wall covering with natural stone, but also with any other facing material suitable for the above technology.

Example.

The basic sequence of installation of a device for fastening facade plates, using the CraspanGranite porcelain tiles, for example:

1. The movable bracket consists of two parts - a fixed one, which is attached to the wall, and a movable one, to which vertical guides are attached. The movable part of the bracket allows you to correct the roughness of the wall and set the guides of the vertical profile in one in the plane.

2. Anchor fastener

3. Gasket

4. Facade plate KraspanGranit or ceramic tiles

5. Windproof film

6. The wall

7. Mineral sealant

8. Insulation fixer

A hole is made in the bearing wall, the bracket assembly is installed. Install the insulation, fix its installation by means of a fastener. Install a windproof film. Install the supporting vertical profile and fix it by bolting to the movable bracket.

The vertical supporting profile is aligned vertically by loosening the adjusting bolt fastening on the bracket and moving the vertical profile in the horizontal plane. Install a sealing tape on the vertical profile. Install the vertical seam strip on the sealing tape so that the sealing lips of the sealing tape are outside the strip. The supporting frame elements used in the system are mainly made of galvanized steel sheet materials. Some shaped elements can be made of aluminum tape.

Mineral wool plates of insulation are installed on horizontal profiles and are attached to the wall with special polymer anchors or dowels.

For fastening to the base of the brackets and insulation plates dowels are used (not shown in Fig.). For facing facades, KRASPAN facade panels are used, made on the basis of high-strength extruded fiber-cement sheets.

Two types of facade slabs are used:

- with a surface from a stone crumb (Kraspan Stone);

- with a smooth colored surface (Kraspan Color).

In addition to the marked elements, the system is equipped with the following products:

- Metal strips of galvanized steel or aluminum sheets, powder coated in the color of facade panels:

- Rubber gaskets 36 mm and 60 mm wide.

Metal strips are a set of shaped jointing elements used in vertical joints, as well as in the outer corners of facade panels. When installing the slats, it is necessary to leave a ventilation gap of at least 15 mm between the slat and the facade plate underneath.

Claims (15)

1. A device for attaching facade plates containing a bearing assembly having profiles that, by means of ribs, engage with two opposing surfaces of the facade plates, forming a spike-groove connection, a support profile in the form of an arm, fixed to the surface to be lined, and intermediate an element associated with the bearing unit and with the supporting profile, characterized in that each - and the supporting profile, and the intermediate element in the section with a horizontal plane has an L-shaped profile, one shelf of which is facing the surface exposed to the lining, while the other shelf of the intermediate element is designed to install the bearing node, the intermediate element in the horizontal plane is also a L-shaped section having a shelf facing the surface exposed to the lining, the bearing node consists of a bracket-holder of the upper and -bottom holder, in cross section which represent U-shaped profiles having walls and differently sized side flanges perpendicular to them with ends bent outward, the wall of the bracket-holder is upper it is located on top of the wall of the bottom bracket holder, and the side support flanges are turned in opposite directions, lie in the same vertical plane, forming ribs, by means of which the bracket bars mesh with two opposing surfaces of the facade plates, forming a spike-groove connection the gaps between the facade slabs are inserts made in the form of decorative shaped elements. 2. The device for fastening facade panels according to claim 1, characterized in that the bracket is movable, in two parts - stationary, which is attached to the wall, and the movable part, to which the intermediate element is attached. 3. The device for attaching facade plates according to claim 1, characterized in that the upper bracket-holder is characterized by a U-shaped unequal cross-section, with one enlarged shelf and a second supporting shelf, and the edges bent inward. 4. The device for fastening facade panels according to claim 1, characterized in that the lower bracket-holder is characterized by a U-shaped complex cross section with a shelf bent outward at a right angle and a second supporting shelf bent twice at a right angle. 5. A device for attaching facade plates according to claims 1 and 4, characterized in that the intermediate profile, supporting element and supporting profiles are made of stainless steel. 6. A device for fastening facade panels according to claims 1 and 4, characterized in that the intermediate element, the supporting profile and the supporting profile are made of structural aluminum alloy. 7. A device for fastening facade panels according to claims 1 and 4, characterized in that the shaped elements for the installation of joints are made in the form of metal strips of galvanized steel sheets. 8. A device for attaching facade plates according to claims 1 and 5, characterized in that the shaped elements for the installation of joints are made in the form of metal strips of aluminum sheets. 9. A device for fastening facade panels according to claims 1 and 5, characterized in that each supporting profile is fixed to one of the supporting shelves of the intermediate element through a set of bolted joints. 10. A device for fastening facade panels according to claims 1 and 5, characterized in that the shaped elements for the installation of joints are made of painted powder dyes in the color of the tiles. 11. The device for mounting facade slabs according to claim 1, characterized in that porcelain tiles are used as facade slabs. 12. The device for fastening facade slabs according to claim 1, characterized in that the facade slabs are KRASPAN facade slabs made on the basis of high-strength extruded fiber-cement sheets. 13. The device for mounting facade slabs according to claim 1, characterized in that the factory facade slab with longitudinal grooves along the horizontal end surface is used as the facade slab. 14. The device for attaching facade slabs according to claim 1, characterized in that facade slabs with a surface of stone chips are used as facade slabs. 15. The device for mounting facade slabs according to claim 1, characterized in that facade slabs with a smooth colored surface are used as facade slabs.