RU188987U1 - WALL PANEL - Google Patents

Abstract

The technical solution relates to the field of construction. Wall panel, made in the form of a multi-layer container with channels for ventilation of the heat-insulating layer, which contains an external contour, an internal contour, a thermal bridge, brackets for fastening the panel on the building structure, insulating elements. The outer and inner contours are rigidly interconnected and a thermal bridge is installed between them, the outer and inner contours being a rectangular frame made of profile elements interconnected, the inner contour further comprising transverse stiffeners of the profile elements external and internal contours are fixed insulating elements, and the brackets are installed on the outer sides of the profile elements of the frame of the internal contour, except Moreover, on the front of the outer contour are fixed guides for mounting the facing material. The technical result is to increase thermal protection of the building while simultaneously increasing the structural strength of the panel. 4 hp f-ly, 5 ill.

Description

Technical field

The proposed utility model relates to the field of civil construction and can be used to construct exterior wall fences on frame buildings during the construction of new buildings, or to reconstruct old ones by hanging on existing supporting structures (walls).

The level of technology

The prior art design of mounted facade cassettes, ensuring reliable operation of the thermal insulation of multi-storey panel houses and reduce the cost of installing ventilated fencing (see, for example, RU 138890, 07/26/2012).

This design does not have high factory readiness, which leads to installation errors and reduced installation speed, the frame of the building in such structures, as a rule, remains in a cold circuit.

Disclosure of utility model

The proposed solution - a wall panel (facade module) is aimed at solving the problem of accelerating the installation of high prefabricated wall panels with internal and external decoration, an effective method of insulation using a ventilated facade system.

The technical result is to increase the thermal protection of the building while simultaneously increasing the structural strength of the panel. This is achieved by the fact that the supporting frame of the building remains structurally inside the thermal circuit. The design of the panel is divided into layers insulated from each other. The multi-layered design allows you to “dial” the required thickness of the insulation layer, taking into account the energy efficiency of the entire building. In the composition of the panel channels for ventilation of the heat-insulating layer are made.

The design of the product provides for its multi-layered and division into separate contours of the layer with interior decoration and heat insulation, and exterior decoration. This allows you to use the panel fully assembled in new construction, where the product is a multi-layered wall, and in the reconstruction, where only the external circuit is used (with or without insulation).

This task is solved by creating a wall panel made in the form of a multilayer container with channels for ventilation of the heat-insulating layer, which contains an outer contour, an inner contour, a thermal bridge, brackets for attaching the panel to the building structure, insulating elements, and the outer and inner contours are rigidly interconnected and a thermal bridge is installed between them, the outer and inner contours being a rectangular frame made of profile elements interconnected, with morning circuit further comprises transverse ribs of the profile elements, and the internal space of the external and internal loops fastened insulation elements, wherein the brackets are mounted on outer sides of the profiled inner contour frame members, moreover, the front portion of the outer contour of fixed guides for mounting facing material.

In one of the variants of the claimed solution, the brackets are a structure in which there is a groove and an element with a hole for the guide pin.

In another variant of the claimed solution, the profile elements of rectangular frames are connected by bolting and brackets.

In another variant of the claimed solution, the profile elements of rectangular frames are connected by means of rivets and brackets.

Thus, the claimed technical solution with its entire set of essential features allows to ensure the possibility of guaranteed receipt of the above technical result.

Brief Description of the Drawings

FIG. 1 shows a general view of the frame of the outer contour.

FIG. 2 shows a general view of the inner contour frame with transverse stiffening ribs.

FIG. 3 shows a general view of the module with bearing guides.

FIG. 4 shows the assembly of the container from the inner and outer contours.

FIG. 5 is a view of the wall panel with the finished form with the front part

Implementation of the utility model

The wall panel is a multi-layer construction, which includes metal or made on the basis of metals and their alloys (for example, aluminum) profile elements (3) and insulating materials, in particular, insulation (7).

FIG. 1 shows a general view of the outer contour (1) of the wall panel, which contains a rectangular frame assembled from the profile elements (3). These profile elements are rigidly interconnected by appropriate fasteners (for example, bolts, riveting, etc.).

FIG. 2 shows a general view of the inner contour (2) of the wall panel, which also contains a rectangular frame assembled from the profile elements (3). In this case, the frame of the inner contour (2) contains transverse stiffening ribs (4). As seen in FIG. 2 stiffening ribs (4) connect parallel (long profile elements of a rectangular frame) sides of a rectangular frame and are perpendicular to them. The ribs are fastened by means of brackets and corresponding fasteners. The cross ribs also serve as the basis for fixing the interior trim and laying insulation.

FIG. 3 shows a general view of the wall panel, which is obtained by connecting the outer contour (1) and the inner contour (2) with the formation of a single container, but without a facial finish. Between the external and internal circuits there is a thermal bridge made of thermally insulating material. The type of material and its thickness may vary depending on the climatic region and the designed object. At the same time, the wall panel also includes brackets (6) for fastening the wall panel to the building structure, insulation (7) fixed in the cavity of the outer contour by means of stretch marks (8) and dish-shaped elements with self-tapping screws (self-tapping screws are screwed into the stiffeners). In addition, on the front of the frame of the outer contour are installed by means of fastening elements bearing guides (5) with the corresponding design step in the direction of the length of the frame. These guides provide the ability to attach to them facing material.

The formation and assembly of one panel section is carried out according to the following steps:

The first step is the formation of the outer contour (1), which determines the overall size of the panel. Depending on the number of external circuits (1) and (2), the total thickness of the module cake (D) is determined. The outer contour of the filling is divided into two types: filling with a soft insulation of the entire space and filling with a dense insulation and a ventilated gap.

The profile is assembled in a closed loop using the appropriate brackets. Rivets are used to connect. When assembling the contour, an instrument is used that allows to observe linear dimensions with a tolerance of ± 2 mm and angular dimensions strictly according to the drawing.

The second step is to assemble the inner contour (3), which provides the spatial rigidity of the structure and serves as the basis for the rest of the structural elements, such as brackets, interior decoration and others.

The profile is assembled in a closed loop using the appropriate brackets. In the frame are installed transverse ribs. Rivets are used to connect.

The third stage is the assembly of the container. The contours are assembled into a single container using a rivet or bolt joint depending on the thickness of the thermal bridge installed between the contours. Thermal bridge adhesive side mounted on the outer circuit around the perimeter of contact with the inner loop or other outer circuits. To install the panel on the facade on the container install brackets. The set of brackets is determined according to the installation sites of the module on the facade of the building. Then from the inside of the container fix the skin with the installation of a super-diffusion membrane. After that, the volume of the internal contour is filled with insulation, which is used, for example, "soft cotton". Insulation is placed in the grooves formed by the horizontal ribs of the inner contour, with all the gaps filled with foam. Insulation is laid in the outer contour with a twist through 90 ° for ligation of the seams (Fig. 4). After that, the outer contour is wrapped in a windproof membrane and attached to the module with braces at the corners and fasteners to the ribs of the inner contour. The fourth stage is the assembly of the front of the panel. To do this, on the front of the outer contour set of bearing guides, the pitch of which is determined taking into account the project and used cladding material. The profiles on the outside provide the spatial rigidity of the structure and serve as the basis for fixing the facing materials. After that, installation of the facing material is carried out, according to the used method of fastening. Ceramic granite, fiber cement panels, profiled sheet, metal cassettes, composite cassettes and others are used as a facing material.

Claims (4)

1. Wall panel, made in the form of a multi-layer container with channels for ventilation of the heat-insulating layer, which contains an outer contour, an inner contour, a thermal bridge, brackets for fastening the panel on a building structure, insulating elements, which are different in that the outer and inner contours are rigidly interconnected and a thermal bridge is installed between them, while the outer and inner contours are a rectangular frame made of interconnected profile elements, complete the inner contour The flax contains transverse stiffeners made of profile elements, and in the inner space of the outer and inner contours the insulating elements are fixed, and the brackets are installed on the outer sides of the core elements of the inner contour frame, besides, on the front part of the outer contour there are fixed guides for mounting the facing material. 2. Wall panel according to claim 1, characterized in that the brackets are a structure in which there is a groove and an element with a hole for the guide pin. 3. Wall panel under item 1, characterized in that the profile elements of rectangular frames are connected by bolting and brackets. 4. Wall panel under item 1, characterized in that the profile elements of rectangular frames are connected by means of rivets and brackets.

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