RU210675U1 - facade building panel - Google Patents

Abstract

The technical solution relates to the field of construction, namely to prefabricated self-supporting external structures intended for wall fencing of low-rise and high-rise buildings. Facade building panel contains a frame in the form of a frame of profiles filled with insulation, sheet material attached on both sides of the frame, and a crate made on the outer surface of the panel with the formation of air gaps, to which elements of the facade cladding are fixed, contains brackets fixed on its upper part, made with the possibility of attaching to the floor slabs, and the sides of the panel are made with the possibility of being connected to another panel with a tongue-and-groove lock. The brackets can be made with the possibility of attaching to the floor slabs by means of L-shaped fasteners. To connect to another panel with a tongue-and-groove lock, the sides of the panel may contain grooves half the width of the panels. The sheet material is made in the form of lightweight concrete. The sheet material may be in the form of a cement board. Facade construction panel may include plasterboard sheathing, hydro-windproof diffusion membrane attached to the frame, vapor barrier layer attached to the frame, sealing gasket located on the underside of the panel. The technical result consists in facilitating the installation of the panel.

Description

The utility model relates to the field of construction, namely to prefabricated self-supporting external structures intended for wall fencing of low-rise and high-rise buildings.

From the prior art, a panel is known according to the utility model patent RU 107211 U1 "MULTILAYER CONSTRUCTION PANEL" (IPC E04C 2/00; published on 10.08.2011). Known panel contains an internal frame in the form of a prefabricated frame of horizontal U-shaped profile guides and vertical ribs, an inner layer of sheet sheathing, an outer layer of sheet sheathing and a layer of non-structural insulation, while between the inner layer of sheet sheathing and the layer of non-structural insulation there is a concrete-containing layer.

The panel according to the invention patent RU 2485260 C1 "MULTILAYER CONSTRUCTION PANEL" (IPC E04C 2/38; published 06/20/2013) is known from the prior art, selected as the closest analogue. The panel contains an internal frame in the form of a collapsible frame made of perforated thermal profiles, consisting of lower and upper guides of a U-shaped profile with one-way edge bends, between which vertical ribs of a C-shaped profile are installed. It also includes sheet sheathing, and a non-structural insulation is placed in the internal cavity. The outer skin of the panel surface is made in the form of a fire-resistant air-permeable material placed on its outer side, adjacent to the vertical ribs of the C-shaped profile and rigidly pressed by a crate consisting of horizontal and vertical profiles rigidly connected to each other.

However, the above analogues do not disclose the elements that allow you to connect multiple panels to each other. Assembled and mounted panels form the building envelope, which takes the load from its own weight, wind and technological loads. In this regard, the elements through which the panels are connected are an important part of the design, since they must provide a strong, reliable and tight connection. As a rule, installation is carried out using additional fastening systems, which greatly complicates the process of installation and assembly of the entire structure and increases its time. Unlike the well-known analogues, the edges of the panel are made with the possibility of connecting with another panel with a tongue-and-groove lock, allowing you to quickly but reliably connect the panels without complicating the installation process.

The objective of the proposed technical solution is to create a facade building panel that provides a reliable connection to form the building envelope without complicating the installation process or increasing the assembly time. The technical result consists in facilitating the installation of the panel.

The claimed technical result is achieved by the fact that the facade building panel containing a frame in the form of a frame of profiles filled with insulation, sheet material attached on both sides of the frame, and a crate made on the outer surface of the panel with the formation of air gaps, to which elements of the facade cladding are fixed, contains brackets fixed on its upper part, made with the possibility of attaching to the floor slabs, and the sides of the panel are made with the possibility of connecting to another panel with a tongue-and-groove lock. Brackets can be made with the possibility of attaching to floor slabs by means of L-shaped fasteners. To connect to another panel with a tongue-and-groove lock, the sides of the panel may contain grooves half the width of the panels. The sheet material is made in the form of lightweight concrete. The sheet material may be in the form of a cement board. Facade construction panel may include plasterboard sheathing, hydro-windproof diffusion membrane attached to the frame, vapor barrier layer attached to the frame, sealing gasket located on the underside of the panel.

To realize the purpose, namely the creation of the supporting building envelope, the panel contains a frame in the form of a frame of profiles filled with insulation, and sheet material attached to both sides of the frame. The execution of the lathing on the outer surface of the panel with the formation of air gaps, to which the elements of the facade cladding are fixed, makes it possible to form a drainage channel to remove water and keep the panel elements in a dry state, ensuring the structural reliability required for panels used for enclosing structures. This design allows you to get a panel that is ready for installation and does not require additional technological procedures for assembling its elements at the construction site.

The execution of the sides of the panel with the possibility of connecting to another panel with a tongue-and-groove lock, in particular, the presence of grooves half the width of the panels on its sides, allows only simple and technological installation of the panels at the construction site and connect them to each other without complex fixing operations or attract significant labor resources and construction equipment. At the same time, the presence of a sealing gasket located on the underside of the panel makes it possible to isolate the joints. The panel contains brackets fixed on its upper part, made with the possibility of attaching to the floor slabs, which allows, without complicating the installation process, to easily install it on the floor slab. At the same time, the brackets can be made with the possibility of attaching to the floor slabs by means of L-shaped fasteners, ensuring the adjustment of the panel horizontally and vertically.

To implement the enclosing function, provide the necessary rigidity to the frame and protect the insulation, the sheet material can be made in the form of lightweight concrete or cement cement slab, and the panel itself can include plasterboard sheathing.

To prevent moisture of structural elements, protect the insulation and prevent heat loss, the panel may contain a hydro-windproof diffusion membrane and a vapor barrier layer fixed to the frame.

The claimed solution is explained with the help of figures, which conditionally represent one of the possible variants of the claimed panel.

In FIG. 1 shows a general view of the panel.

In FIG. 2 is a horizontal section through several connected panels.

In FIG. 3 shows a vertical section of the panel.

The numbers in figures 1-3 indicate: 1 - insulation, 2 - sheet material, 3 - hydrowindproof diffusion membrane, 4 - vapor barrier, 5 - facade cladding, 6 - crate, 7 - bracket, 8 - L-shaped fastener, 9 - window block.

The construction of the panel will now be described with reference to the figures.

Facade building panel contains a frame in the form of a frame of profiles, filled with insulation 1, and sheet material 2, attached on both sides of the frame.

The frame can be made of galvanized light steel profiles with thermal notches, covered with an anticorrosive polymer coating. The frame is made in the form of a frame and, in particular, may contain upper horizontal guiding thermal profiles, lower guiding thermal profiles, single and double rack-mounted vertical thermal profiles connected to each other, for example, by means of steel rivets or by peening.

Insulation 1, such as mineral wool, is mainly installed between the profiles of the frame by surprise.

Sheet material 2 on the inside of the panel can be made in the form of lightweight concrete slabs, such as foam concrete, with additional reinforcement. The inner lining of the panel may also be made of drywall or drywall and cement boards, in particular fiber cement boards, attached to the frame with self-tapping screws.

Sheet material 2 in the form of cement boards fixed to the frame with self-tapping screws may also form the outer skin of the frame.

On the outer side of the panel, a hydro-wind-protective diffusion membrane 3 can be installed, and on the inner side - a layer of vapor barrier 4, fixed to the frame.

On the outer surface of the panel with the formation of air gaps, a crate 6 is made, to which the elements of the facade cladding 5 are fixed. Under the air gaps in the context of this description, we understand the air gap formed between the insulation 1 and the elements of the facade cladding 5.

The crate 6 can be made of horizontal and vertical omega profiles attached to the frame with self-tapping screws.

Clinker tiles, metal cassettes or composite panels, volumetric ceramics, fiber cement boards, porcelain stoneware or natural stone, etc. can be used as facade cladding 5.

The edges of the panel are made with the possibility of being connected to another panel by a tongue-and-groove lock; for this, in particular, grooves and protrusions of half the width of the panels can be made on the sides of the panel.

The panel may include a sealing gasket located on its underside.

A bracket 7 is fixed to the upper part of the panel, which can be attached to the floor slabs, in particular by means of L-shaped fasteners 8, which are mounted to the floor slab of the building using anchors and allow you to adjust the position of the panel horizontally and vertically. Bracket 7 for attaching to floor slabs can be made of galvanized steel and consist of a vertical plate of variable cross section, a bushing with internal thread for vertical adjustment of the panel position during installation, and a plate with a threaded hole for horizontal adjustment of the panel. Adjustment is carried out, for example, using bolts.

It is possible to make a window block 9 in the panel, equipped with a window sill on the inside, and on the outside - with a lower tide, upper and side slopes with a fire cut-off.

Facade building panels are used as building envelopes and are manufactured as follows.

The frame is assembled from LSTK profiles in the following sequence. With the help of rivets, the double vertical rack profiles are fastened with a bracket 7 installed between their walls for fixing to the floor slab. The rack profiles are inserted into the guides of the horizontal top and bottom profiles and are fastened in the shelves on one side with the help of pecking. After aligning the diagonals of the frame and checking all geometric dimensions, the rack profiles are fixed in the guides with a second blind rivet. Further, internal spacers are inserted between the rack profiles and fixed with rivets. After turning the frame by 180 °, the profiles are fastened together from the back side with blind rivets.

Insulation 1 is installed at a distance between the profiles of the frame. The sheets of the hydro-wind-protective diffusion membrane 3 are fastened horizontally (across the frame profiles) using a self-adhesive tape. In particular, fastening is carried out with an overlap of adjacent canvases. The outer skin is made of cement boards, fastened to the frame profiles. The vertical (end) joints of the plates are shifted horizontally by the pitch of the racks. Plates are fixed, for example, with self-tapping screws. The fabrics of the vapor barrier layer are mounted on the inner surface of the insulation, fastening to the frame profiles, in particular, using a self-adhesive overlapping tape.

The internal lining with gypsum boards can be made in two layers, in particular, the sheets are fastened with self-tapping screws.

The pouring of lightweight concrete, such as foam concrete, can be carried out before the installation of insulation 1, after which the panel is sent to the steaming chamber to gain the necessary strength.

Then window blocks 9 can be installed complete with window sills, ebbs, and slopes.

The panels are delivered to the construction site in the form of fully finished prefabricated blocks. At the facility, only simple and technological installation of modules on a monolithic floor and their connection is carried out.

The panel is mounted on the floor slab through the bracket 7, in particular, using an L-shaped fastener 8, made, for example, in the form of an L-shaped galvanized steel plate with four oval holes, reinforced with stiffeners, its fastening to the floor slab can be carried out with using expansion anchors. Oval holes allow horizontal adjustment during installation.

The panels are interconnected by combining the protrusions, i.e. "spikes" of one panel with recesses, i.e. "grooves" another.

Facade construction panel is characterized by easy installation and high reliability.

It is obvious to a specialist in this field that the given example of a panel and its individual parts, as well as the views presented in the figures, do not limit the scope of the proposed technical solution. It is possible to manufacture and use the panel in other forms within the scope of the claimed formula.

Claims (9)

1. Facade building panel containing a frame in the form of a frame of profiles filled with insulation, sheet material attached on both sides of the frame, and a crate made on the outer surface of the panel with the formation of air gaps, to which elements of the facade cladding are fixed, characterized in that it contains brackets fixed on its upper part, made with the possibility of attaching to floor slabs, and the sides of the panel are made with the possibility of connection with another panel with a tongue-and-groove lock. 2. Front building panel according to claim 1, characterized in that the brackets are made with the possibility of attaching to the floor slabs by means of L-shaped fasteners. 3. Facade building panel according to claim 1, characterized in that for connection with another panel with a tongue-and-groove lock, the sides of the panel contain grooves half the width of the panels. 4. Front building panel according to claim 1, characterized in that the sheet material is made in the form of lightweight concrete. 5. Front building panel according to claim 1, characterized in that the sheet material is made in the form of a cement board. 6. Facade building panel according to claim 1, characterized in that it includes plasterboard sheathing. 7. Facade building panel according to claim 1, characterized in that it contains a hydro-windproof diffusion membrane fixed to the frame. 8. Front building panel according to claim 1, characterized in that it contains a layer of vapor barrier attached to the frame. 9. Front building panel according to claim 1, characterized in that it contains a sealing gasket located on the underside of the panel.

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