RU2533782C1 - Mineral or organic binder based cladding panel - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: mineral or organic binder based cladding panel has a panel body with external, internal and end surfaces, lower L-shaped metal section and upper L-shaped metal section. At the lower L-shaped metal section the end is embedded in the lower part of the panel body, and the shelf is located parallel to the external surface of the panel body. At the upper L-shaped metal section the end is embedded in the upper part of the panel body, and the shelf parallel to the external surface of the panel body, is made protruding over the upper edge of the panel, to the distance providing a possibility of fixing of the upper L-shaped metal section to the bearing profile of the cladding system, and is fitted with the additional folding, located parallel to the external surface of the panel body towards the panel body. The length of the shelf folding of the upper L-shaped metal section is equal or smaller than the length of the shelf of the lower L-shaped metal section mated during assembly. The lower L-shaped metal section is installed with displacement towards the centre of the panel body with reference to the lower edge of the panel.

EFFECT: improved reliability of fastening, the panel structure integrity is ensured, the speed is increased and the time of mounting of cladding system is shortened.

6 cl, 5 dwg

Description

The invention relates to the field of construction and can be used for exterior and interior cladding of stone and wooden buildings and structures.

Known concrete facade slab containing the body of the slab with a rectangular outer, inner and end surfaces. The thickness of the body of the plate is 15-40 mm. The plate is fastened to the wall surface with metal reinforcement, fixing the position of the plate at a distance of 20-50 mm from the wall, with filling the gap between the wall and the plate with cement-sand mortar that holds the plate after it has hardened and adheres to the wall surface in the required position (GOST 6927- 74. Concrete facade slabs. Technical requirements [Electronic resource]. UR-L: http://www.docload.ru/Basesdoc/3/3705/index.htm (accessed: 04.24.2013).

The concrete facade slab described above has, firstly, narrow functional capabilities, because the slab cannot be used for cladding wooden walls of buildings because of poor adhesion of cement-sand mortar to the tree and cannot be used with simultaneous external insulation of the building walls; secondly, the poor quality of the surface of the slab after fixing the slab to the wall due to the fact that during the hardening of the cement-sand mortar and its subsequent drying through the concrete slab, the salts dissolved in water are migrated and transferred to the outer surface of the slab.

A concrete facade panel is known, comprising a panel body with external, internal and end surfaces forming a protrusion equal to the length of the panel, a protrusion in the upper part of the panel and a recess for the protrusion in the lower part of the panel, intended for fastening the panel, as well as lower ones, i.e. located in the lower part of the body panels, L-shaped metal profiles. The end of each profile is monolithic in the lower part of the panel body, and the shelf of each profile located parallel to the outer surface of the panel body is protruding beyond the lower edge of the panel with the possibility of changing its position relative to the panel body for fastening the vertical rows of panels to each other. On the ledge of the panel there are made transverse transverse stepped openings for the fixing elements, reinforced with steel spirals with inner diameters equal to the smaller diameters of the sections of the stepped openings. The spirals are installed by protruding one ends behind the inner surface of the panel body and resting opposite ends on the surface of transitions from large diameters of stepped holes to smaller ones. The ends of the spirals are monolithic in the body of the panel. This device as the closest to the proposed invention in terms of technical nature and the achieved result is selected as a prototype (patent RU 2178048, IPC ⁷ E04F 13/14).

The disadvantages of the above-described concrete facade panels are the low reliability of fastening to the supporting profile of the cladding system and the inability to ensure structural integrity due to the high concentration of stresses at the monolithic points of the spirals and, as a result, due to the destruction of the panels, especially at the corners; low speed and duration of installation of the cladding system due to the need to bend the shelves of L-shaped metal profiles placed in the panels of the upper row in the direction of the panels of the lower row, as well as the need to fix the panels when using protrusions and recesses in the upper and lower parts of each panel, respectively. In addition, as the disadvantages of this panel, it is possible to note the potential for additional violation of the structural integrity by destroying the panel during the bending of the shelves of L-shaped metal profiles and limiting the size of the panel to the strength properties of concrete.

The present invention solves the problem of improving the reliability of fastening, ensuring the integrity of the panel structure, increasing speed and reducing the installation time of the cladding system.

The problem is solved in that the panel is facing based on mineral or organic binders, containing the panel body with external, internal and end surfaces, a lower L-shaped metal profile, the end of which is monolithic in the lower part of the panel body, and the shelf is parallel to the outer surface of the body the panel according to the invention is provided with an upper L-shaped metal profile, in which the end is monolithic in the upper part of the panel body and the shelf parallel to the outer surface of the panel body, made protruding beyond the upper edge of the panel to a distance that provides the ability to attach the upper L-shaped metal profile to the supporting profile of the cladding system, and is equipped with an additional bend located parallel to the outer surface of the panel body towards the panel body. The limb length of the shelf of the upper L-shaped metal profile is made equal to or less than the length of the shelf of the lower L-shaped metal profile, mating during assembly. The lower L-shaped metal profile is installed with an offset to the center of the panel body relative to the lower edge of the panel.

To increase strength, the panel can be equipped with a connecting element of metal and / or composite material installed in the body of the panel and connected with L-shaped metal profiles.

To ensure that there are no restrictions on the size of the panel with the strength properties of concrete, the body of the panel can be made of reinforced metal fibers, or organic fibers, or mineral fibers.

To ensure that there are no restrictions on the size of the panel with the strength properties of concrete, the body of the panel can be made of reinforced nets of organic fibers and / or nets of mineral fibers.

To further ensure structural integrity, L-shaped metal panel profiles can be equipped with anchors.

To prevent water accumulation in the L-shaped metal profiles, holes are made.

Improving the reliability of fastening the facing panel based on mineral or organic binders is achieved by introducing the upper L-shaped metal profile, increasing the area of bearing of the L-shaped metal profiles and increasing the adhesion area of the L-shaped metal profiles with the panel body.

Ensuring the integrity of the design of the facing panel based on mineral or organic binders is achieved by the fixed position of the L-shaped metal profiles and the absence of the need to bend the L-shaped metal profile, which is proposed in the invention selected as a prototype by introducing the upper L-shaped metal profile. In this case, L-shaped metal profiles are included in the design as load-bearing elements and stiffeners and provide the location of the outer surfaces of the panels in one plane regardless of the difference in the thickness of the panels.

Increasing the speed and reducing the installation time of the cladding system is achieved by introducing the upper L-shaped metal profile having a shelf with an additional bend, with a general decrease in the number of facade elements by increasing their area, by supporting the upper panels on the lower ones during installation of the cladding system without bending the shelves Г -shaped metal profiles.

The limb length of the shelf of the upper L-shaped metal profile, made equal to or less than the length of the shelf of the lower L-shaped metal profile, is optimal, since when the length of the limb of the shelf of the upper L-shaped metal profile, made longer shelf length of the lower L-shaped metal profile, a wedging effect occurs, which leads to a sharp increase in tensile stresses in the fixing elements connecting the facing panel based on mineral or organic binders with vertical a supporting element of the cladding system.

The invention is illustrated in the drawing, in which Fig. 1 shows a cross section of a separate facing panel based on mineral or organic binders vertically; figure 2 is a transverse vertical section of the facing panels based on mineral or organic binders assembled with fastening to the vertical bearing element of the facing system; figure 3 - the mounting unit of the facing panel based on mineral or organic binders to the vertical supporting element of the facing system; figure 4 is a General view of the upper L-shaped metal profile with an anchor; figure 5 is a fragment view of the upper L-shaped metal profile with holes.

The facing panel based on mineral or organic binders contains the panel body 1 with the outer surface 2, inner surface 3, end surfaces 4 and 5, a lower L-shaped metal profile 6, at which the end is monolithic in the lower part of the panel body 1, and the shelf 7 is located parallel to the outer surface 4 of the panel body 1, the upper L-shaped metal profile 8, in which the end is monolithic in the upper part of the panel body 1, and the shelf 9, parallel to the outer surface 4 of the panel body 1, is protruding the edge of the panel to a distance that allows mounting the upper L-shaped metal profile 8 to the supporting profile of the cladding system, and is equipped with an additional bend 10 located parallel to the outer surface 4 of the panel body towards the panel body 1. The length of the bend 10 of the flange 9 of the upper L-shaped metal profile 8 is equal to or less than the length of the flange 7 of the lower L-shaped metal profile 6, mating during assembly of the panels. Panels can have different thicknesses. The lower L-shaped metal profile 6 and the upper L-shaped metal profile 8 are designed to perform the functions of load-bearing elements and stiffeners of the panel. Moreover, the upper L-shaped metal profile 8 is also designed to fix the lower edge of the panel.

The lower L-shaped metal profile 6 is installed with an offset to the center of the body 1 of the panel relative to the lower edge of the panel. The amount of displacement should provide the required clearance between adjacent edges of the panels.

For the manufacture of panels mineral binders may be used; for example, Portland cement, or organic binders, for example, epoxy.

L-shaped profiles 6 and 8 can be made of alloyed or galvanized steel.

Fastening of facing panels based on mineral or organic binders to a vertical supporting element 11, for example, a U-shaped, facing system is made from the bottom up. First, a launch plate 12 is attached to the vertical supporting element 11, the configuration and dimensions of which correspond to the configuration and dimensions of the shelf 9 of the upper L-shaped metal profile 8 parallel to the outer surface 2 of the panel body 1. The fastening of the starter strip 12 to the vertical supporting element 11 is carried out by means of fixing elements made in the form of rivets 13 or self-tapping screws (not shown in the drawing). Then, the first row panel is installed on the starting strip 12 and the upper L-shaped metal profile 8 of the first row panel is fastened to the vertical supporting element 11 with rivets 13 or self-tapping screws. The shelf 7 of the lower L-shaped metal profile 6 of the second row panel is installed in the gap formed between the bend 10 of the shelf 9 of the upper L-shaped metal profile 8 of the panel of the first row and the outer surface of the vertical supporting element 11 of the facing system. Next, the upper L-shaped metal profile 8 of the panel of the second row is fastened with rivets 13 or self-tapping screws to the outer surface of the vertical supporting element 11.

In the panel body 1, a connecting element 14 can be installed connected with L-shaped metal profiles 6 and 8. The connecting element 14 can be made of metal, for example, steel wire, and composite material, for example, fiberglass, or can be made only of composite material, for example fiberglass.

The body 1 of the panel can be made of reinforced metal fibers, or organic fibers, or mineral fibers. Steel fibers can be used as metal fibers, cellulose as organic fibers, and basalt fiber as mineral fibers.

The body 1 of the panel can be made of reinforced nets of organic fibers and / or nets of mineral fibers. Polypropylene fibers can be used as organic fibers for making nets, and fiberglass can be used as mineral fibers for making nets.

L-shaped metal profiles 6 and 8 can be equipped with anchors 15.

In the elements of the L-shaped metal profiles 6 and 8 located perpendicular to the inner surface 3 of the body 1 of the panel, openings 16 can be made.

The operation of the cladding panel based on mineral or organic binders consists in the fact that cladding provides reliable protection of buildings and structures from destruction from the outside during operation under the influence of moisture, frost and other aggressive factors. The decoration of the external and internal surfaces of the building is provided. The gaps formed between the outer surface of the wall and the inner surface 3 of the body 1 of the panel can be used to fill the insulation and / or to perform the functions of a ventilated facade.

Thus, the use of the proposed facing panel based on mineral or organic binders can increase the reliability of its fastening, ensure the integrity of the structure, increase speed and reduce the installation time of the facing system.

Claims (6)

1. The panel is facing based on mineral or organic binders, containing the body of the panel with external, internal and end surfaces, the lower L-shaped metal profile, the end of which is monolithic in the lower part of the panel body, and the shelf is parallel to the outer surface of the panel body, characterized in that the panel is equipped with an upper L-shaped metal profile, in which the end is monolithic in the upper part of the panel body, and the shelf, parallel to the outer surface of the panel body, is made protruding beyond the edge of the panel to a distance that allows the upper L-shaped metal profile to be fastened to the supporting profile of the cladding system, and is provided with an additional bend located parallel to the outer surface of the panel body toward the panel body, the bending length of the shelf of the upper L-shaped metal profile being equal to or shorter shelf lengths of the lower L-shaped metal profile, mating during assembly, and the lower L-shaped metal profile is installed with an offset to the center of the body of the pan ate relative to the bottom edge of the panel. 2. The panel according to claim 1, characterized in that it is equipped with a connecting element made of metal and / or composite material installed in the body of the panel and connected with L-shaped metal profiles. 3. The panel according to claim 1, characterized in that the panel body is made of reinforced metal fibers, or organic fibers, or mineral fibers. 4. The panel according to claim 1, characterized in that the panel body is made of reinforced nets of organic fibers and / or nets of mineral fibers. 5. The panel according to claim 1, characterized in that the L-shaped metal profiles are equipped with anchors. 6. The panel according to claim 1, characterized in that the holes are made in the L-shaped metal profiles.

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