RU203520U1 - WALL PANEL - Google Patents

Abstract

The utility model relates to the field of construction, namely to panels intended for external thermal insulation and decorative cladding of buildings, structures and structures for various purposes. The technical result of the utility model is an increased contact area of the facade element to the heat-insulating layer, while maintaining protection against condensation between the insulated wall the specified task and technical result are achieved due to the fact that the declared wall panel for cladding and insulation of building structures, including a facade element and a heat-insulating layer, connected by means of an adhesive composition, while in a heat-insulating layer adjacent grooves are made to the rear side of the facade element, forming ventilation ducts with it, characterized in that the facade element contains recesses on the back side, parallel to the ventilation ducts, and along the recesses of the facade element in the heat-insulating layer, from the side adjacent to the rear side of the facade element, additional grooves are made, corresponding in shape to the recesses.

Description

The utility model relates to the field of construction, namely to panels intended for external thermal insulation and decorative cladding of buildings, structures and structures for various purposes.

The closest analogue is a wall panel for cladding and insulation of building structures [RU94597U, E04F 13/00, E04C 2/292, publ .: 05/27/2010], including a facade element and insulation, connected by means of an adhesive composition, characterized in that the insulation consists At least two layers of heat-insulating material, with the heat-insulating layer adjacent to the insulated structure, sealing, and grooves are made in the heat-insulating layer adjacent to the rear side of the facade element, forming ventilation ducts with it.

The technical problem of the utility model is that the formation of ventilation ducts, although it allows to reduce the formation of condensation between the insulated building wall and the facade element at the joints between the panels, at the same time reduces the contact area of the facade element to the thermal insulation layer, which reduces the service life of the wall panel, since the facade layer adheres worse to the heat-insulating layer and, with temperature changes, breaks away from it faster than if the contact area of the facade element to the heat-insulating layer was higher.

The task underlying the claimed utility model is to create a wall panel, which, on the one hand, allows to reduce the formation of condensation between the insulated building wall and the facade element at the joints between the panels, and on the other hand, would have an increased contact area of the facade element to the thermal insulation layer , which would increase the service life of the wall panel in comparison with the prototype.

The technical result of the utility model is an increased contact area of the facade element to the heat-insulating layer, while maintaining protection against condensation between the insulated building wall and the facade element at the joints between the panels.

The specified task and technical result are achieved due to the fact that a wall panel for cladding and insulation of building structures is declared, including a facade element and a heat-insulating layer, connected by means of an adhesive composition, while grooves are made in the heat-insulating layer adjacent to the back side of the facade element, forming with it, ventilation ducts, characterized in that the facade element contains recesses on the rear side parallel to the ventilation ducts, and along the recesses of the facade element in the heat-insulating layer, on the side adjacent to the rear side of the facade element, additional grooves are made, corresponding in shape to the recesses.

Preferably, the recesses are in carbon shape.

It is acceptable that the recesses are rectangular.

It is preferable that on the end sides of the facade element a groove is made on one side, and on the other side a locking projection (spike).

The utility model is illustrated by a drawing.

The drawing shows the structure of the wall panel in section and its parts in close-up.

In the drawing: 1 - facade element, 2 - heat-insulating layer, 3 - ventilation duct, 4 - protrusion (thorn) of the lock joint, 5 - slot of the lock joint, 6 - recess of the surface layer, 7 - additional slot in the heat-insulating layer, 8 - main cutout (groove) in the heat-insulating layer, 9 - layer of adhesive composition.

Implementation of the utility model.

Wall panel (see Fig.) Is a panel for cladding and insulation of building structures, including a facade element 1 and a heat-insulating layer 2, connected by means of an adhesive composition 9, while grooves 8 ( main), forming ventilation ducts with it 3.

What is new is that the facade element 1 contains recesses 6 on the rear side, parallel to the ventilation ducts 3, and along the recesses 6 of the facade element 1 in the heat-insulating layer 2, on the side adjacent to the back side of the facade element 1, additional grooves 7 are made, in the form matching grooves 6.

To connect panels of the same type to each other, on the end sides of the facade element 1, a lock groove 5 can be made on the one side, and on the other side, a locking projection 4 (thorn).

In the prototype, the facade element is a flat panel, and taking into account the presence of grooves in the heat-insulating layer, the contact area with it is less than in the claimed utility model, since the facade element 1 of the claimed utility model contains recesses 6 from the rear side, as well as additional grooves 7 in insulating layer 2.

Thus, the utility model implements a wall panel, which, on the one hand, makes it possible to reduce the formation of condensation between the insulated building wall and the facade element at the joints between the panels, since ventilation ducts 3 are preserved in it, as in the prototype, which allow reducing the formation of condensation between the insulated wall the wall of the building and the facade element at the border of the joint between the panels. On the other hand, the wall panel has an increased contact area of the facade element 1 to the heat-insulating layer 2 in comparison with the prototype, which increases the service life of the wall panel in comparison with it.

The utility model can be implemented as follows.

Facade element 1 can be made of steel, aluminum, copper, stainless steel.

Heat-insulating layer 2 is made of a single piece of insulation, which makes it possible to strengthen the strength of its attachment to the surface layer. The attachment of these layers 1 and 2 is ensured by gluing them together. The adhesive layer 9 is applied to the thermal insulation layer 2, and the facade element 1 is pressed against it.

The surface layer of the facade element 1 is easily molded so that its ends are the elements of the "thorn-groove" lock, where one is made as a protrusion 4 of the metal sheet 1, and the other - as a slot 5 of the lock connection.

The recesses 6 of the facade element 1 are formed, for example, in a carbon shape. A recess 6 of this shape is easier to make in the sheet metal panel of the facade element 1.

But the recesses 6 can be made in a different shape, for example, rectangular (not shown in the drawing).

In the heat-insulating layer 2, the main grooves 8 and additional grooves 7 are cut, and the additional grooves 7 are cut out in shape corresponding to the grooves 6 of the facade element.

The presence of these elements of the thorn-groove lock (4 - 5, respectively), by analogy with the prototype, ensures the connection of panels with minimal gaps, increasing the strength and thermal insulation characteristics of the panel, as well as eliminating heat loss between the specified media and at the joints of the panels.

The thermal insulation layer 2 can be made of mineral wool or glass wool.

In the course of installation work, the wall panel is connected to a similar panel by means of elements 4 and 5 of the "thorn-groove" lock, where at least one of the elements of the lock 4 and / or 5 can be applied with a sealant (not shown in the drawing) ... In the process of connecting the panels to each other, the elastic layer of the seal is subjected to deformation, thereby being distributed over the surfaces of the lock joint, filling the formed gaps between the elements of the lock. Thus, a tight connection is created, which reduces heat loss between the resulting media. This design of the wall panel provides reliable sealing and isolation of the media between each other.

Claims (4)

1. Wall panel for cladding and insulation of building structures, including a facade element and a heat-insulating layer, connected by means of an adhesive composition, while grooves are made in the heat-insulating layer adjacent to the back side of the facade element, forming ventilation ducts with it, characterized in that the front the element contains recesses on the rear side, parallel to the ventilation channels, and along the recesses of the facade element in the heat-insulating layer, on the side adjacent to the rear side of the facade element, additional grooves are made, corresponding in shape to the recesses. 2. Wall panel according to claim 1, characterized in that the recesses are triangular in shape. 3. Wall panel according to claim 1, characterized in that the recesses are rectangular in shape. 4. The wall panel according to claim 1, characterized in that on the end sides of the facade element, a groove is made on one side, and a locking projection on the other side.

Images