BE1005714A3 - Facing panel with one visible natural stone surface, and its process ofmanufacture - Google Patents

Abstract

Facing panel (1) with one visible natural stone surface (120) and process ofmanufacturing said facing panel (1), the process comprising, on oneapproximately plane surface (3) of a rigid section (2) that is to advantageof a synthetic material, the anchoring, particularly by bonding, of at leastone natural stone sheet (10) having at least one approximately plane surface(19), in such a way that the rigid section (2) covers approximatelycompletely the aforementioned plane surface of the sheet.<IMAGE>

Description

       

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   "Facing panel with a visible face in natural stone, and its manufacturing process".



   The present invention relates to a method of manufacturing a covering panel with a visible face of natural stone.



   Natural stone slabs for covering the walls are usually made in a thickness which ensures sufficient breaking strength, both for manufacturing and laying handling, and for resistance after laying, and which makes it possible to incorporate into the plate for fixing elements to the wall to be coated. Indeed, in thin, a natural stone plate is relatively or very fragile and to compensate for this fragility, it is usual to increase this thickness.



   Therefore, on the one hand, the weight of the plate is very high and its cost, linked to the weight, is comparatively high, for a surface to be coated, compared to other coating materials and, on the other hand , the wall to be coated must be reinforced as a result of the weight it has to bear. In addition, due to the weight, handling of natural stone slabs is complicated and it often requires the use of powerful lifting means. This results in an installation speed that is too low.



   The object of the invention is to remedy these problems and to provide a method which makes it possible to produce a panel of the kind described above, the thickness of natural stone of which is appreciably reduced in order to reduce its weight, while ensuring rigidity. of the panel sufficient to withstand the stresses during manufacture and / or treatment of natural stone, transport, storage, handling during laying, etc., as well as thermal and other stresses to which the panel can be submitted when, for example, it adorns an external wall.



   To this end, there is provided, according to the invention, a method of the type mentioned at the beginning, which comprises, on one side substantially

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 plane of a rigid profile advantageously made of synthetic material, a fixing, in particular by gluing, of at least one natural stone plate having at least one substantially planar surface, so that the rigid profile substantially completely covers the above-mentioned plane surface of the plate.



   According to a very advantageous embodiment of the invention, the natural stone plate comprising an additional substantially planar surface parallel to the aforementioned planar surface, the method according to the invention also provides for fixing, on the additional planar surface, of a flat face of another rigid profile also advantageously made of synthetic material completely covering the additional flat surface, and a slicing right through, between the two rigid profiles, of the natural stone plate sandwiched between the two rigid profiles, to form two cladding panels with a visible face in natural stone.



  Advantageously, the slicing is carried out parallel to the aforementioned flat surfaces and preferably at equal distances from the two flat surfaces of the natural stone plate.



   In this way, a covering panel can be made with a natural stone plate whose thickness is less than half the usual thickness provided, taking into account the breaking strength of said plate during its manufacturing manipulations and installation, without taking into account the high mechanical stresses that may appear after installation. These constraints are for example taken up by the rigid profile which can also be used to fix the covering panel to the wall to be coated. So the gain in material, in particular by reducing waste, and consequently in cost can be appreciable. Likewise, materials considered too fragile until now to make natural stone slabs, for a thin wall covering, can be exploited by this technique.

   In addition, if natural stone plates break later, they are held on the rigid profile without risk of falling and retaining the coated wall a very correct appearance.



   According to a particularly advantageous form of the invention, the fixing between natural stone plate and profile

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 rigid includes an interposition of an element capable of absorbing differences in expansion between the natural stone slab and the rigid profile.



   This interposed element can be a fixing glue between plate and profile, retaining an appropriate elasticity to absorb these differences in expansion. This interposed element can also be a panel having the necessary absorption skills.



   The invention also relates to a covering panel with a visible face made of natural stone.



   According to the invention, the covering panel with a visible face made of natural stone comprises a rigid profile advantageously made of synthetic material, which has a substantially planar face, and at least one plate of natural stone which has a substantially planar surface fixed, in particular by bonding, to the substantially planar face of the rigid section so that this face substantially completely covers the planar surface. Preferably, according to the invention, the visible face of natural stone is parallel to the planar surface of the natural stone plate, the dimensions of this surface being substantially equal to the dimensions of the planar face of the rigid section.



   According to a preferred form of the invention, the rigid section is hollow and has an external contour in the form of a parallelepiped, one large face of which is the above-mentioned substantially planar face.



  Advantageously, the rigid section has an external face, substantially opposite to the above-mentioned flat face, in which at least one longitudinal T-shaped groove opens.



   According to a particularly advantageous embodiment of the invention, in the T-shaped groove is arranged a fastening element having on the one hand protruding fastening to the T-shaped groove and on the other hand, for fixing of the covering panel to a wall to be covered by the latter, a part external to the rigid profile and comprising at least one notch intended to cooperate with a corresponding notch of a wall profile fixed to the wall after a depression of the external part in or along the wall profile.

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   Other details and particularities of the invention will emerge from the description of the drawings appended to this specification and which illustrate, by way of nonlimiting examples, the method and a particular embodiment of the covering panel according to the invention.



   Figure 1 shows, in cross section, two cladding panels with a visible face made of natural stone during manufacture, before a slicing of separation along the line A-A.



   Figure 2 shows, on another scale and in cross section, a longitudinal connecting profile advantageous for joining two panels according to the invention.



   Figure 3 shows, on another scale and in cross section, a fastening element of the covering panel according to the invention and a corresponding wall profile.



   Figure 4 is similar to Figure 1, an element capable of absorbing differences in expansion between natural stone slab and rigid profile being interposed therebetween.



   FIG. 5 shows an example of use of a particular embodiment of the invention for coating a corner of a wall on a reduced scale.



   In the different figures, the same reference notations designate identical or analogous elements.



   Figure 1 shows in cross section, left and right of a cutting line AA which will be explained later, two covering panels 1 with a visible face 120 of natural stone which illustrate by way of example an embodiment of the invention.



   The covering panel 1 according to the invention essentially comprises a natural stone plate 10 described below and a rigid profile 2 which is advantageously made of synthetic material, for example extruded PVC, and of which at least the face 3 is flat for receive the natural stone slab 10.



  The rigid profile 2 can generally have an external contour in the form of a parallelepiped and more particularly of a parallelepiped.

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 rectangle. The rigid profile 2 can be hollow and have internal longitudinal ribs 4 connecting for example the large faces 3 and 5 of the profile 2 to ensure the rigidity of the latter.



   The rigid section 2 advantageously has along each of its lateral edges 6 a longitudinal channel 7 opening substantially in the middle of the corresponding lateral edge 6. The channel 7 is preferably delimited by sides 77 which can be parallel to the above large faces 3 and 5 and by a bottom which can advantageously be perpendicular to these large faces 3 and 5 and be formed for example by a longitudinal rib 4A.



   Figure 2 shows in cross section, on an enlarged scale, a connecting profile 8 of substantially rectangular section. The thickness of the connection profile 8 can be equal to the distance between the two sides of the same channel 7, its width possibly being substantially equal to twice the depth of the channel 7. In this way, a connection profile 8 introduced in the space formed by the two channels 7 of two adjoining covering panels 1 along their lateral edges 6 and aligned along their large faces 3 and 5 maintains inter alia this alignment and increases the rigidity by the mutual action of the adjoining panels . The connecting profile 8 is preferably hollow and may have between its large faces longitudinal ribs 9 to ensure its rigidity.



   The realization of a channel 7 in each of the two lateral edges 6 and the use of the connection profile 8 make it possible to have two rigid profiles 2 one next to the other without having to take account of a direction of orientation . However in another embodiment not shown, an edge 6 may for example have the channel 7 and the other edge 6 a longitudinal projection of dimensions adapted so that this projection penetrates into the channel 7 and performs the same functions as the profile of connection 8. This other embodiment, not shown, may have advantages, for example in the case where a particular orientation of the covering panel 1 must be respected.



   In the embodiment described, the rigid profile 2 also has, in the large face 5, two longitu-

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 equal T-shaped dinals whose bottom wall 12 can be parallel to the flat face 3 and connected to the latter by longitudinal ribs 13 for reasons of rigidity. The side walls of the T-shaped grooves are shaped in the usual way to present the two longitudinal notches 111 typical of these T-shaped grooves.



   Advantageously, the rigid profile, shown by way of example in FIG. 1, is produced symmetrically with respect to a median longitudinal plane of symmetry BB perpendicular to the planar face 3. In addition, it may be preferable that the rigid profile 2 also has another symmetry on either side of two longitudinal planes CC perpendicular to the planar face 3 and each located halfway between the median longitudinal plane BB and the corresponding side face 6.

   This other reflection symmetry between a cross-sectional part of the rigid section 2 going from the lateral edge 6 to the first other plane of symmetry CC and the cross-sectional part of the rigid section 2 going from this first other longitudinal plane CC to the median longitudinal plane BB is produced on both sides of the median longitudinal plane BB and provides, on each side of the latter, and in the immediate vicinity, a longitudinal recess 14 delimited by two ribs 4A and by two sides 15 and 16 spaced from one another from the same distance as that which separates the sides of the aforementioned channels 7.



   This other reflection symmetry determined by each of the longitudinal planes CC results in that each T-shaped groove It is advantageously arranged symmetrically with respect to one of the longitudinal planes CC.



   The covering panel 1 furthermore has, according to the invention, a natural stone plate 10 fixed, for example by gluing by means of a layer of thermosetting adhesive 18 of polyurethane type, on the flat face 3 of the rigid profile 2. To this Indeed, the natural stone plate 10 advantageously comprises a flat surface 19 prepared for bonding. The flat face 3 may have longitudinal grooves 20, of small cross section, which ensure good adhesion of the adhesive layer

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 18. These longitudinal grooves 20 are preferably located in line with longitudinal ribs 4.



   To overcome the fragility of the natural stone plate 10, the flat face 3 substantially completely covers the flat surface 19 to support the entire natural stone plate 10. In addition, the natural stone plate 10 can be split in two or several elements arranged one next to the other to, for example, compose a decorative pattern according to the shapes of the fragments and / or according to fragments from different natural stones and / or artificial stones. Joints (not shown) can also be made between fragments.



   The natural stone plate 10 can have at least one dimension (length or width) different from the corresponding dimension of the rigid profile 2. This plate 10 can for example extend beyond the profile 2 to allow coating of a wall corner 50 (figure 5).



   In addition, the plate 10 can be of dimension (length and / or width) smaller than the profile 2 to allow a joint to be made between two adjacent plates 10 or to allow camouflage of different thicknesses of plates 10, a slight square error on plates 10, etc ...



   For example, when using the covering panel 1 outside a building, the natural stone plate 10 is directly subjected to the rays of the sun and therefore undergoes a greater expansion than that which undergoes the rigid profile 2 which is sheltered from these rays. To absorb this difference in expansion, one can either select an adhesive which forms an element capable of absorbing said difference, or for example advantageously fix between plate 10 and profile 2 an element 130 (FIG. 4) with a honeycomb texture 131. This texture 131 is preferably between two external layers 132 and 133 which are fixed to it securely and which are used for bonding the plate 10, on the layer 132, and of the profile 2, on the layer 133. The honeycomb texture bee 131 can be made, for example, of polypropylene.

   PVC foam can also be used to absorb the aforementioned difference in expansion.

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   Advantageously, the visible face 120 of the natural stone is parallel to the planar bonding surface on the rigid profile 2. However, in the case of fragmented plates 10, it may be desirable for the visible faces of the fragments not to be in the same plan. Furthermore, according to the invention, when the natural stone plate 10 is made in one piece, it is preferable that the dimensions of its bonding surface 19 are equal to those of the planar face 3.



   According to the invention, for the attachment of the covering panel 1 of the invention, there is provided, according to an embodiment shown in Figure 3, a fastening element 30, in the form of a section of profile 30 , U-shaped whose base 31 of the U is extended on either side outside of the section of section 30 by two longitudinal projections 32 arranged to each penetrate into a respective longitudinal notch 111 of a shaped groove of T Il. The two parallel wings 33 of the section of section 30 are at a mutual distance corresponding to that which separates the two parallel faces of the T-shaped groove 11 by which the latter opens on the face 5 of the rigid section 2.

   The thickness of the longitudinal protrusions 32 of the U, including that of the longitudinal beads 34A, can be chosen to obtain a slight tightening in the longitudinal notches 111. The parallel wings 33 of the section of profile 30 slid into the T-shaped groove 11 extend perpendicularly outside the rigid section 2, over a distance determined for example as a function of the desired spacing between the wall to be coated and the covering panel 1.



   The longitudinal beads 34A can be provided to cooperate with the T-shaped groove Il in order to wedge the fixing element longitudinally there. Longitudinal beads 34B can also be provided for laterally centering the fixing element 30 in the groove T-shaped 11.



   Each wing 33 has on its internal face two notches 35, 36 each formed by a longitudinal bead with a triangular cross section whose front face, considering the direction of the arrow 37, is inclined towards the base of the profile section

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 30. moving away from the internal face and the rear face is substantially perpendicular to the wing 33. Advantageously, the two notches 35 face each other and are closer to the base 31 than the two notches 36 which also face each other . Furthermore, the distance between the extreme edges, at the junction of the above-mentioned inclined and perpendicular faces, of the notches 35 is less than the distance between those of the notches 36.



   A U-shaped wall profile 38, the base 39 of which is used for its usual attachment to the wall to be coated, has two wings 40 perpendicular to the base 39. Each wing 40 has on its external face two notches 41,42 each formed by a longitudinal bead which has on the side of the base 39 a face substantially parallel to the latter and away from this base 39 a face inclined towards the latter away from the outer face of the wing 40. Advantageously, the notches 42 are closer to the base 39 than the notches 41, the two notches 42 or respectively 41 being at the same distance from the base 39. The distance between the horizontal face of a notch 41 and that of the notch 42 on the same wing is equal to the distance between the horizontal face of a notch 35 and that of the notch 36 on the same corresponding wing.



   In the embodiment illustrated in FIG. 3, the distance between the wings 33 is greater than that which separates the external faces of the wings 40, and is chosen so that, during a depression in the direction of arrow 37 of the profile section 30 to cover the wall profile 38, the aforementioned end edge of each notch 35 is supported on the outer face of the respective wing 40. In addition, the distance between the aforementioned extreme edges of the two notches 36 is preferably greater than the distance between the end edges, at the junction of the above-mentioned corresponding parallel and inclined faces, of the two notches 41.



   Thus, during the abovementioned insertion in the direction of arrow 37, a notch 35 runs along the external face of the corresponding wing 40. A notch 36 passes beyond the corresponding notch 41 without coming into contact with the latter. Then, the inclined faces of the notches 35 and 41 on the one hand and 36 and 42 on the other come into contact practically simultaneously, and, during the progression of the depression, act

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 to elastically separate the wings 33 from each other until the notches 35 have exceeded the notches 41 and the notches 36 have exceeded the notches 42. At this time, the wings return elastically practically to their initial position and then prevent the profile section 30 from being torn off from the wall profile 38, therefore the covering panel 1 which it can carry.

   Lateral protrusions 44 of the wall profile 38 can serve as a stop at the corresponding wing ends 45 of the profile section 30. The wings 40 can be less elastic than the wings 33.



   The wall profile 38 and the profile section 30 can be made, for example, of aluminum.



   Other forms of wall profile and / or other elements fulfilling the role of connection of the profile section 30 can also be provided. Preferably, the wall profile 38 is placed vertically, for example by means of horizontal supports, on the wall to be coated.



   The method of manufacturing a covering panel 1 according to the invention may consist in forming a natural stone plate 10 having at least one visible face 120 and a surface 19 usually opposite to this and planar provided for gluing the plate in natural stone 10 on the rigid section 2 described above, and to give the natural stone plate dimensions so that its planar surface 19 is substantially completely covered by the planar face 3 of the rigid section 2.



   To minimize the thickness of the natural stone plate 10 without the risk of it breaking during handling, it is proposed according to the invention to produce in a first stage a plate 100 of thickness somewhat greater than double of that which is desired for the natural stone plate 10. This plate 100 is produced for example in the form of a rectangular parallelepiped, with two parallel surfaces 19 each provided for bonding. A rigid profile 2 is bonded to each surface 19 having a flat face of the same dimensions as these flat surfaces 19, so as to cover the natural stone plate 100 each time completely.

   Then, the natural stone plate 100 taken

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 sandwich between the rigid sections 2 is cut for example parallel to the flat surfaces 19, and, if necessary, at an equal distance therefrom, by sawing. Two similar covering panels 1 are thus obtained and their visible face 120 formed during said sawing can be finished if necessary.



   Instead of a plate of natural stone 100, it is also possible to stick between two rigid sections 2 several plates of the same types or shapes or of different types or shapes to organize a decoration of the panel, while however preferably ensuring consistency. of the thickness between the surfaces forming the parallel surfaces 19 for bonding.



   Advantageously, the rigid sections 2 have a width of 200 mm and the covering panels 1 have this same modular width. By juxtaposition of covering panels 1, for example using the connecting profile 8 of Figure 2 to connect these panels together, it is possible to coat surfaces whose width is a multiple of 200 mm.



   To compensate for the above-mentioned differences in expansion between plate 10 and profile 2, provision may advantageously be made during their fixing for an interposition of an element 130, for example in honeycomb, between this plate 10 and profile 2.



   In order to cover surfaces whose width is a multiple of 100 mm, it is possible to section right through in the longitudinal direction a covering panel 1 along the median longitudinal plane BB. In the case of the embodiment of FIG. 1, this sectioning separates the recess
14 in two channels 14A and 14B open to also be able to receive, if necessary, a connection profile 8. The connection profile 8 can for example support a sealant putty placed between two covering panels. Each half-panel obtained advantageously has, according to FIG. 1, a T-shaped groove for its fixing.



   The rigid profile 2 is designed to support not only the weight of the natural stone slab but also the forces known to those skilled in the art, for example the forces due to wind, the effects due to temperature variations, etc.

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   It should be understood that the invention is in no way limited to the embodiments described and that many modifications can be made to the latter without departing from the scope of the present invention.



   Thus, for example, the slicing of the plate 100 between the two rigid sections 2 can be carried out at an angle relative to the planar face 3 or at different distances from the planar faces 3 of each rigid section 2. In addition, the so-called natural stone plate can be made of reconstituted stone, etc.


    

Claims (19)

 CLAIMS 1. Method for manufacturing a covering panel (1) with a visible face (120) made of natural stone, characterized in that it comprises, on a substantially planar face (3) of a rigid profile (2) advantageously in synthetic material, a fixing, in particular by gluing, of at least one natural stone plate (10) having at least one substantially planar surface (19), so that the rigid profile (2) covers substantially the above-mentioned planar surface of the plate.  2. Manufacturing method according to claim 1, characterized in that the natural stone plate (10) comprising a substantially planar surface (19) additional parallel to the above-mentioned planar surface (19), it comprises: - a fixing, on the additional flat surface (19), of a flat face (3) of another rigid profile (2) advantageously of synthetic material covering substantially completely the additional flat surface, and - a slicing right through, between the two rigid profiles (2), of the natural stone plate (10) sandwiched between the two rigid sections, to form two covering panels (1) with a visible face in natural stone.  3. The manufacturing method according to claim 2, characterized in that the slicing is carried out parallel to the aforementioned flat surfaces (19).  4. The manufacturing method according to claim 3, characterized in that the slicing is carried out at equal distances from the two flat surfaces (19) of the natural stone plate (10).  5. Manufacturing method according to any one of claims 2 to 4, characterized in that it further comprises a finishing of the two visible surfaces (120) obtained by slicing and / or a dimensioning of these surfaces.  6. Manufacturing method according to any one of claims 1 to 5, characterized in that it further comprises a longitudinal and / or transverse section, right through through the rigid profile (2) and the plate ( 10), of the cladding panel (1), to form cladding panels (1) of reduced dimensions.  <Desc / Clms Page number 14>    7. Method according to any one of claims 1 to 6, characterized in that the fixing comprises an interposition of an element (130) capable of absorbing differences in expansion between the natural stone plate (10) and the profile rigid (2).  8. Cladding panel (1) with a visible face (120) of natural stone comprising: - a rigid profile (2) of synthetic material which has a substantially planar face, (3) and - at least one plate of natural stone ( 10) which has a substantially planar surface (19) fixed, in particular by gluing, to the substantially planar face (3) of the rigid section (2) so that this face substantially completely covers the planar surface (19).  9. covering panel (1) according to claim 8, characterized in that the substantially planar surface (19) is fixed to the substantially planar face (3) by means of an element (130) capable of absorbing differences in expansion between the natural stone plate (10) and the rigid profile (2).    10. covering panel (1) according to claim 9, characterized in that the element (130) capable of producing differences in expansion comprises a honeycomb texture (131) between two external layers (132,133) intended one for fixing to the natural stone plate (10) and the other for fixing to the rigid profile (2).  11. Cladding panel according to any one of claims 8 to 10, characterized in that the visible face (120) of natural stone is parallel to the planar surface (19) of the natural stone plate (10), the dimensions of this surface being substantially equal to the dimensions of the flat face (3) of the rigid section (2).  12. Cladding panel according to any one of claims 8 to 11, characterized in that the rigid profile (2) is hollow and has an external contour in the form of a parallelepiped, one large face of which is the substantially planar face (3) mentioned above. .  13. covering panel according to claim 12, characterized in that the rigid profile (2) has a cross section  <Desc / Clms Page number 15>  rectangular and has at least on one of its lateral edges (6) a longitudinal channel (7) determined by sides (77) and by a bottom (4A).  14. Cladding panel according to claim 13, characterized in that the sides (77) of the longitudinal channel (7) are parallel to the aforementioned large face.  15. Cladding panel according to any one of claims II to 14, characterized in that the rigid section (2) has an external face (5), substantially opposite to the above-mentioned flat face (3), in which at least one T-shaped longitudinal groove (11) opens.  16. Cladding panel according to any one of claims II to 15, characterized in that the cross section of the rigid section (2) has a symmetry of reflection with respect to a median longitudinal plane (BB) perpendicular to the planar face ( 3) above.  17. Cladding panel according to claim 16, characterized in that the cross section of the rigid profile (2) further has, relative to another longitudinal plane (CC) perpendicular to the aforementioned flat face and located midway between the median longitudinal plane (BB) and the corresponding lateral edge (6), parallel to the latter, of the rigid profile, substantially a symmetry of reflection between the part of cross section going from the lateral edge (6) corresponding to the other longitudinal plane (CC) and the part of cross section going from this other longitudinal plane (CC) to the median longitudinal plane (BB).  18. Cladding panel according to any one of claims 15 to 17, characterized in that in the T-shaped groove is arranged a fastening element (30) having on the one hand projections (32) for securing to the T-shaped groove (11) and on the other hand, for fixing the covering panel (1) to a wall to be covered by the latter, an external part (33) with a rigid profile (2) and comprising at least one notch (35, 36) intended to cooperate with a corresponding notch (41,42) of a wall profile (38), fixed on the wall, after a depression of the external part  <Desc / Clms Page number 16>  (33) in or along the wall profile (38).  19. Cladding panel according to claim 18, characterized in that said external part (33) is formed by two wings (33) parallel to each other and substantially perpendicular to the flat face (3) of the rigid profile (2) and in that that each wing (33) comprises two notches (35, 36) arranged at a distance from one another in the direction of depression (37) and having, at least for the notches, a symmetry of reflection with respect to a plane which is median to them, the wall profile (38) having for the notches (35, 36) of each wing (33) of the outer part of the corresponding notches (41,42) located at said distance from each other .