ITFI20090067A1 - "AN INSULATING SLAB FOR BUILDING CONSTRUCTION, WITH A PROFILE FOR THE MOST SHEET MORTAR INSERT" - Google Patents

Description

â € œAN INSULATING SHEET FOR USE IN BUILDING, WITH PROFILE FOR THE RECIPROCAL INTERLOCKING OF MORE SHEETSâ €

DESCRIPTION

Technical Field

The present invention relates to improvements to insulating sheets, in particular to sheets for use in construction, intended to be applied on the external walls of buildings to obtain thermal insulation.

State of the art

In construction, thermal insulation systems are increasingly used to reduce energy consumption by reducing the dispersion of heat from heated environments to the outside and / or the entry of heat from the outside into air-conditioned environments. Typically for this purpose, expanded polystyrene sheets are used, which are applied with a suitable glue on the external surface of the wall.

In some cases these sheets have edges or side profiles of mutual interlocking. More specifically, these slabs have a rectangular shape with two sides converging in an edge along which grooves are made, while along the two complementary sides there are protrusions in the form of linear projections complementary to the channels. With this conformation the slabs can be interlocked with each other when they are installed, obtaining a better thermal insulation effect. The linear channels and projections have a substantially rectangular cross section. The cross-sectional dimensions of the channels and projections are such as to require a forced coupling of the sheets. Forcing is all the more necessary the more precise the silhouette of the male and the females is. However, the precision of the shapes is fundamental, to avoid a possible thermal bridge that would in itself worsen the thermal insulation effect. Therefore, it is necessary to force the joint to obtain an adequate thermal insulation effect. This involves difficulties during the installation phase with the risk of breaking the projections and / or the edges along which the interlocking channels are made, also due to the fragility of the materials used in the construction of the slabs, typically expanded polystyrene. Furthermore, the forcing to obtain a suitable joint can cause the displacement of the slab (s) causing the detachment of the slab itself from the glues and / or interacting with the glue setting process, compromising its grip.

Summary of the Invention

According to one aspect, the invention relates to a panel or slab of insulating foam material of the aforementioned type, equipped with channels and projections for the mutual interlocking of the slabs or panels laid in place on a wall, which exceeds in all or in part one or more of the drawbacks of traditional slabs.

Basically, the insulating plate according to the invention comprises, along the four sides, interlocking profiles and interlocking channels complementary to said profiles, in which the shape of the profiles and channels is shaped by invitation, with opposite sides not parallel between them, so as to facilitate the insertion of each projection into the complementary channel of an adjacent slab when the slabs are laid in place. In one embodiment, the slab comprises a rear face, a front face and lateral surfaces, in which linear projections and channels are formed, said projections and said channels being positioned and shaped in a complementary manner to constitute elements for mutual interlocking of adjacent slabs, characterized in that the projections have a first side with a substantially flat surface portion and approximately parallel to the front and rear faces of the plate and a second side with a surface portion inclined with respect to said rear and front faces. Preferably, the inclined side has a curved shape, for example it can consist of or comprise a portion of a cylindrical surface with the concavity facing outwards.

Further advantageous characteristics and embodiments of the sheet according to the invention are indicated in the attached claims, which form an integral part of the present description and will be described in greater detail below with reference to some non-limiting embodiments of the invention.

Brief Description of the Drawings

The invention will be better understood by following the description and the attached drawing, which shows a practical non-limiting embodiment of the invention. More specifically, in the drawing: le

Figs. 1 and 2 show two axonometric views from the front and from the back of a panel or slab according to the invention; the

Figs. 3 and 4 show a front view and a rear view of a panel according to the invention; the

Figs. 5A, 5B, 5C, 5D and 5E show cross sections of a panel according to the invention in various embodiments; there

Fig. 6 shows an enlarged detail in cross section of a panel according to the invention.

Detailed Description of Forms of Implementation of the Invention

In the drawings, a plate according to the invention is generally indicated with 1. It has a front surface or face 3 and a rear surface or face 5 which, in the example illustrated, has a substantially rectangular development. The plate 1 also has lateral surfaces 7, 9, 11 and 13, along which mutual interlocking systems are made between several plates or insulating panels 1 placed side by side to form a thermal insulation. Each slab 1 is made for example of expanded polystyrene or other suitable insulating material.

In some embodiments, the mutual interlocking system between adjacent slabs comprises linear projections 14, 15 made respectively on a short lateral surface 9 and on a long lateral surface 11. Channels 17, 19 are formed on the remaining two surfaces. 15 and the channels 17, 19 have mutually complementary shapes so that by placing several sheets 1 together, the linear projections 14 are inserted into corresponding channels 17 of adjacent slabs and the linear projections 15 are inserted into channels 19 of adjacent slabs.

As can be seen in particular in the cross section of Fig. 6, each linear projection has in cross section a profile characterized by a portion of a flat surface 21, substantially parallel to the two front and rear faces or surfaces 3, 5 and therefore orthogonal to the lateral surface 11 , 9 on which the prominence is made, defining a first flank of the prominence. On the opposite side of the projection 14, 15 it has a second side formed by a portion of curved surface 23 and more precisely in the example shown a surface with a cross section in an arc of circumference with the concavity facing outwards and forming at the point of intersection with face 3 an angle Î ± substantially right. The concave surface portion 23 is connected to the substantially flat surface portion 21 by means of a substantially semi-cylindrical intermediate surface portion 25.

In Fig. 6 the complementary shape of the channel 17, 19 is also shown. This channel has a substantially flat surface 31, a substantially cylindrical surface 33 with a shape complementary to the surface 23 of the projection 14, 15 and a bottom surface 34 of development substantially cylindrical complementary to the surface 25 of the projection 14, 15.

With a conformation of this type of the projections and channels, the installation of the insulating plates is much easier, since instead of having to force a prominence with flat parallel faces inside a channel also with flat parallel faces , the prominence forms, together with the channel, curved surfaces that facilitate the interlocking insertion of one slab adjacent to the other. At the same time, the opposing flat surfaces 21, 31 form a stop which causes the behavior of the slabs laid on site to be substantially equivalent to that of traditional slabs where the interlocking projections have parallel flat faces.

As can be understood from Figs 5A-5E, the panels or sheets 1 can be made in various thicknesses. In order to use plates of various thicknesses in the same wall by fitting adjacent plates, for example when the wall has a variable thickness, it is advantageously provided that the projections 14, 15 and the channels 17, 19 are all made substantially at the same distance from the front face, while the difference in thickness between one slab and the other involves a variation in the distance between the projections of the channels with respect to the rear face. In this way it is possible to lay a plurality of slabs of varying thicknesses, forming a uniform external surface.

The front face 3 of the panels can have, as shown in Fig. 2, a series of notches 3A, for example parallel to each other and orthogonal to the longer side of each slab 1, which serve to improve the behavior of the slab in concomitance with any thermal expansion.

The rear face 5 of the slab can be advantageously equipped (see Fig. 4) with areas forming diamond-shaped profiles 5A, 5B, characterized by different surface characteristics, to allow easier application of the adhesive in discrete areas. Preferably in the illustrated example the glue will be applied along the zones 5A while the zones 5B will remain free of glue.

It is understood that the drawing shows only an exemplification given only as a practical demonstration of the invention, which can vary in forms and arrangements without however departing from the scope of the concept underlying the invention. The presence of any reference numbers in the attached claims has the purpose of facilitating the reading of the claims with reference to the description and the drawing, and does not limit the scope of protection represented by the claims.

Claims (9)

â € œAN INSULATING SHEET FOR USE IN BUILDING, WITH PROFILE FOR THE RECIPROCAL INTERLOCKING OF MORE SHEETSâ € Claims 1. A sheet of insulating foam material for use in construction, comprising a rear face, a front face and lateral surfaces, in which linear projections and channels are formed, said projections and said channels being positioned and shaped in a complementary manner to constitute reciprocal interlocking elements of adjacent plates, characterized in that the projections have a first side with a portion of a substantially flat surface and approximately parallel to said front and rear faces of the plate and a second side with a portion of the surface inclined with respect to said faces rear and front. 2. Sheet as per claim 1, characterized in that it is thermally insulating. 3. Insulating plate as per claim 1 or 2, characterized in that said second side has a surface with a curvilinear and concave cross-section. 4. Insulating plate as per claim 1 or 2 or 3, characterized in that said second side faces the front face and said first side faces the rear side of the plate. 5. Insulating plate as per claim 1 or 2, characterized in that said projections have a first flat surface forming at least in part a first side of the projection, a second curved surface with a concavity facing outwards forming at least in part a second flank; a third connecting surface between said first surface and said second surface, with a convexity facing outwards and delimiting the front portion of the projection. 6. Insulating plate as per one or more of the preceding claims, characterized in that said second side of said projections has a concave cylindrical surface with an approximately constant radius of curvature forming a substantially right angle with the front face of the plate. 7. Insulating plate as per claim 6, characterized in that said concave cylindrical surface is tangent to a convex cylindrical surface forming the front portion of said projection. 8. Insulating plate as per one or more of the preceding claims, characterized in that the substantially flat surface portion of said projections is approximately orthogonal to the respective lateral surface of the plate. 9. Insulating plate according to one or more of the preceding claims, characterized in that said channels have a cross section which substantially reproduces in negative the shape of the cross section of said projections.