FR2946064A1 - SYSTEM OF INSULATION OF BUILDINGS FROM OUTSIDE. - Google Patents

Abstract

The invention relates to - an external building insulation system comprising - insulating elements (1) - covered with facing plates (2), fixed on - a set of profiles (5) attached to the wall (0). ) to isolate, characterized in that the insulating elements (1) and the profiles (5) are held by brackets (3) having a first portion (31) substantially flat support and attachment to the wall (0) to isolate and a substantially flat second portion (32) for supporting, holding and fixing at an adjustable distance from said wall (0), for a substantially planar first portion (51), sections (5) having a second portion (52). substantially flat bearing of the facing plates (2), and the consoles (3) are of a thermal conductivity material at most equal to 0.5 W / mK; - a console (3) of this isolation system.

Description

The present invention relates to an insulation system for the exterior of non-industrial, industrial, masonry-walled buildings, or brick, or concrete, solid or light, or to wood frames ... It is a question of thermally and / or acoustically insulating the facades of buildings that may have several floors. In a first known system, the insulation consists of rigid panels of mineral wool, usually rockwool, or organic foam, usually expanded polystyrene. These panels are bonded to the outer wall of the building to be insulated, and generally receive point-like mechanical retention elements of the expanding ankle-star type especially for high walls or in areas subject to high winds. The insulating panels are then covered with an organic or mineral finishing coating, most often reinforced by an alkali-resistant fiberglass grid. In this system, the panels must be rigid because they are the ones that provide the mechanical properties of the facade cladding. An acceptable resistance to the pressure / vacuum forces due to the wind is obtained thanks to the bonding and the mechanical retaining means. The surface remains however subject to deterioration by depression or punching during an impact with a foreign body on the thin layer of surface coating. The organic foam boards also have the disadvantage of being relatively impervious to water vapor and therefore do not allow effective diffusion of water vapor through the wall. In general, bonding is disadvantageous in renovation because it requires a wall with flatness defects of less than a few mm per meter. In the case where the surface to be insulated is highly degraded, a preliminary repair is necessary, which is costly in time and materials. In another known system, the insulation is contained between frame elements fixed to the wall to be insulated, which may be of wood or metal, and an outer facing is attached via a bearing structure defining at the back of the facing a space containing an air gap connected to the outside. This construction avoids the risk of condensation and moisture accumulation in the facade, resulting in a fall in thermal insulation properties, promoting the proliferation of microorganisms, algae or fungi. The wood frame is particularly concerned, because the wood is likely to deteriorate under the effect of moisture. The disadvantage of ventilated facades lies in their complexity of implementation, especially at the singular points of the facade (doors, windows ...). In addition, in case of fire, ventilation of the facade favors the spread of fire in the upper floors (chimney effect). In most ventilated facades, lugs or other metal accessories (galvanized steel or aluminum) are used to hold the entire frame. These accessories contribute to the mechanical strength of the facade, and their number is generally determined according to the different external stress conditions that it has to undergo. The present invention aims to seek new mounting solutions that improve the overall energy performance of the facade. Thus, it appeared to the inventors that these tabs have the drawback of constituting in the facade thermal bridges whose influence can be considerable, to the point that they can cause insulation losses of 15 to 30%, according to the targeted thermal resistance. Today, there are no fasteners on the market for mechanically stable, easy-to-use building facades, which can also be fire-resistant, and which can effectively reduce the risk of fire. Negative influence of the frame reported on the facade on the level of insulation. The invention therefore aims to provide an insulation system 30 from the outside whose attachment to the wall is reliable and fast, in particular without requiring bonding of the elements of the insulation. It also aims to develop a compact and lightweight external insulation system, which facilitates both its attachment to the wall and makes possible its transport in a compact form such as rolls. This system can be installed on walls with large surface irregularities, up to a few centimeters, without the need for repair of the wall. Finally, this system of insulation from the outside allows drying of the construction vis-à-vis the inside and outside, that is to say compatible with the natural tendency of the walls to be absorbed and absorbed. releasing the humidity according to the seasons, without an air gap being necessary (compact system). This last feature, combined with the use of mineral wool, limits the spread of fire in case of fire on the facade, and ensures good fire resistance. These objects are achieved by the invention which relates to a system of insulation of buildings from the outside comprising - insulating elements - covered with facing plates fixed on 15 - a set of profiles reported on the wall to be insulated, characterized in that the insulating elements and the profiles are held by brackets comprising a first substantially flat support part and attachment to the wall to be insulated and a second substantially flat part, of support, holding and fixing at an adjustable distance from said wall , for a substantially planar first portion, profiles which comprise a second substantially flat bearing portion of the facing plates, and the consoles are of a thermal conductivity material at most equal to 0.5 W / mK This system is remarkable in that the consoles have in addition to their mechanical role thermal breakage properties achieved through the use of a constituent material of thermal conductivity less than 0.5 W / m.K. It thus meets a requirement of energy efficiency while presenting logistical or handling advantages since it does not use additional parts to bring a new function. The thermal conductivity of the material of the consoles is especially at least 0.1 W / m.K. This frame fastening system requires no glue. It is particularly effective with insulation insulating wool elements 4 which is able to absorb moisture and then releasing it over the seasons, without being affected in its nature and integrity, nor in its insulating function. It can be mineral wool, organic or vegetable, natural or synthetic, including glass wool, rock wool, hemp wool, wood wool, linen, cellulose wadding ... It should be noted that the system also accepts cellular or expanded insulators such as organic or inorganic foams, such as expanded or extruded polystyrene, polyurethanes, polyisocyanurates, phenolic foams, glass foam ... This system is also compact, because the facing plates can be attached to the profiles without the appearance of an air gap in the system. Insulating wool of relatively low density, preferably glass wool, can be employed, as will be seen in more detail below. This insulating wool is available in compacted form, in easily transportable rolls. In addition this insulation is not rigid but, on the contrary, compressible, which allows the easy positioning of son, ducts, cables, pipes or pipes in the insulation. After unrolling the roll, the insulating wool can be laid in the form of strips. Facing plates are also available in reduced dimensions, for example 2500 x 1200 x 12.5 mm, to which they are also easily transportable. For the purposes of the invention, the term "bracket" designates a means capable of ensuring the mechanical stability of the frame of a facade over a period of tens of years. The consoles must provide sufficient rigidity and mechanical strength to withstand the weight of the facade, withstand the pressure / vacuum cycles under the action of the wind, and accompany, where appropriate, the permitted deformations of the facade components (expansion, impacts). According to the invention they may be made of reinforced plastic material, or equivalent, or even preferably non-flammable. For the purposes of the invention, the term "maintained by" is commonly understood to be attached by means of or through but also extended as being held in place by. It thus applies both to the profiles which are in mechanical connection with the consoles, the insulating elements that come into contact with the consoles and whose position is limited laterally by the latter. The profiles, forming the frame of the facade, are held by the consoles. They can be metal, reinforced plastic or wood. Although the insulation system of the invention is preferably free of an air gap, in which case the facing plates and the finishing constituents covering them must be breathable with respect to moisture. , the presence of an air gap is not beyond the scope of the invention. It is particularly practical, in accordance with the invention, to fix the support profiles of the cladding plates at an adjustable distance from the wall to be insulated. This makes it easy to compensate for any irregularities in the surface of this wall. The vertical position of the profiles is advantageous in the case of ventilated facades, to allow a continuous air gap on the entire facade, between the profiles. Said first substantially flat portion of the consoles is of course intended to be in register with the substantially flat surface of the wall to be isolated, especially in a substantially vertical plane. The second part of the brackets, on which the profiles are fixed, is inscribed in any plane not parallel to the wall to be insulated, preferably in a substantially perpendicular plane. It can in particular be horizontal, and then serve in addition to support the insulating wool, which eliminates the fixing of pegs-stars, and thus reduce installation costs. However, it is preferably positioned vertically. A first portion of a profile is then conveniently partially coincided with such a second vertical console portion, on which it is slid to the desired distance to the wall, and the attachment is made by any way. All fasteners in question here, whether - fastening brackets to the wall to be insulated, or - profiles to consoles, or - facing plates to profiles, are made by means of screws or equivalent (rivet , dowel), especially associated in the first case, with pegs introduced into the wall.

In accordance with the foregoing, the consoles are advantageously substantially L-shaped. Advantageously, the consoles comprise a reinforcement of the connection between said first and second plane portions. This reinforcement is likely to sustainably sustain and maintain the vertical or lateral loads formed by the insulation system. According to a first conformation, this reinforcement consists of a third plane part connecting said first and second and cutting them along two parallel straight lines. According to a second conformation, this reinforcement consists of a third plane portion perpendicular to said first and second. According to a third conformation, this reinforcement consists of an addition of material such as an extra thickness, located in the connection zone or intersection of said first and said second plane portions. Particularly in the case of an L-shaped bracket, the extra thickness can be made in the angled part by the fact that the thickness of the part following the bisector of the angle is greater than the thickness of each of the flat parts. on both sides of the corner. Preferably, the second portion of the brackets is split into a slot for receiving at least an end portion of the first portion of the profiles. This split part of the console can be doubly pre-drilled to accommodate the profile of the attachment means, such as screw or equivalent. It can also be shaped to pinch the fraction of profile received in the slot. For this purpose, the width of the slot may be provided to be very slightly greater (of the order of a few tenths of a millimeter) than the thickness of the first profile portion intended to be received in the slot. A maximum lateral play of 1 to 2 tenths of a millimeter on either side of the profile in the slot is considered satisfactory to allow insertion and adjustment of the position of the profile. This game is preferably reduced to zero at the free edge of the console to achieve the pinch referred to above. In a particular case, the entire flat part of the console has the form of a slotted plate in two at one end. This slot preferably describes a symmetry of the free end of the second part of the consoles. Such a conformation guarantees the best mechanical properties. The fixing of the profiles to the consoles is advantageously carried out by means of three aligned holes formed respectively in the two walls of said slot on the one hand, and said first part of the profiles on the other hand, which receive the fastening means (screws, studs ). This system provides the strongest attachment. Preferably, the consoles of the invention have a shear strength (representative in the installed state of the vertical weight resistance carried by the bracket) of at least 700 N, in particular from 800 to 1400 N, and a resistance in traction (representative in the installed state of resistance to wind pressure forces transmitted by the facade to the console) minimum of 2000 N, in particular 3000 to 3500 N. In mechanical tests, carried out on an Instron machine 1185 at a speed of 4000 N / min, one observes 1) in shear: - at the application of a force of 730 N, a displacement less than 3 mm; shear at the application of a force of 760 N, corresponding to a displacement of 1.5 mm; 2) in tension: a rupture of the part with the application of a force of not less than 4000 N. According to the invention, said consoles are made of a thermal conductivity material at most equal to 0.5 W / m.K. They then constitute effective thermal bridge breakers between the wall to be insulated and the new facade constituted by the profiles and the plates. Preferably, the consoles are of a material which does not participate in the maintenance of fire, and has a resistance to direct exposure to fire of at least five minutes (no noticeable degradation after five minutes in the flame of 'a bunsen burner). In case of fire, the temperature can go from 20 to 1200 ° C in ten minutes. Under these conditions, the consoles according to the invention have a guaranteed mechanical strength of at least fifteen minutes from the beginning of the fire. 8 Subject to a fire of 30 kW (EN 13501 standard), consoles are in perfect condition after one minute, and do not exhibit any noticeable mechanical damage after 5 min. The entire facade (consoles + profiles + plates + plaster) has a fire resistance of at least one hour. This material is preferably chosen from an epoxy resin, polyester such as isophthalic, vinyl ester, polyimide, phenolic, polyetheretherketone, polyaryletherketone, phenylene polysulfide, polyarylsulfone, polyethersulfone, silicone, phthalonitrile, alone or as a mixture of several of those and loaded especially with glass fibers, aramid or carbon, or additives such as flame retardant. In order to obtain the consoles, this material can be used in particular by extrusion, pultrusion, etc. The fibers mentioned mechanically reinforce the material. 15 The all-plastic / resin console integrates the mechanical and thermal functions (bridge breakage) in one piece. It reduces the risk of corrosion on the fastening screw to the facade (indeed if the console was metallic, the contact of two different metals is likely to start and accelerate their corrosion). According to the present preferred embodiment, on the contrary, any material for the screws can be chosen. In a preferred embodiment, the console has at least one of its surfaces, a structure with fibers oriented mainly parallel to said surface, in particular derived from a mat or fiber web, impregnated with synthetic resin. These fibers having a length of at least a few centimeters can be introduced into the composite in the form of a veil or mat pre-impregnated with a resin identical or different from the resin used to make the console. This structure is preferably present on the entire periphery of the room. This embodiment gives the console a surface-sheathed structure (at least in part) very favorable to the mechanical strength of the consoles and the system as well as their dimensional stability. Preferably this structure extends from a face of the console over a distance of the order of 1/10 of the thickness of the corresponding flat part.

The remaining part of the console is advantageously reinforced with fibers generally shorter than those of the surface structure, typically a length of a few millimeters. Such a console can be obtained by the pultrusion technique which makes it possible to introduce into a die or mat or any other form of two- or three-dimensional reinforcement, at the same time as the die is fed with resin or plastic composition for impregnating and / or coating the reinforcing element or elements. The consoles are sized to withstand pull-offs due to the strongest winds (2.1 kPa, safety factor of 1.75 inclusive, with a maximum deformation of 3 mm), according to NV 65 (Eurocode Vents) and shear due to the weight of the facade up to 60 kg / m2 frontage. The solutions according to the present invention have a weight of 18 kg / m2 to 30 kg / m2 of facade. It is specified that the shear strength of the brackets defined above relates to the weight of the facade surface supported by a single console 15 (thus to the distribution of the consoles on the facade). The insulating elements are advantageously based on mineral wool which has a density of between 7 and 100 kg / m 3, especially at most equal to 50 kg / m 3, in particular between 7 and 50 kg / m 3 or 7 and 40 kg / m 3 for example of the order of 10 to 30 kg / m3. It is a thermally and acoustically insulating product. As mentioned above, it also allows drying of the construction, it is able to absorb and releasing moisture to a certain extent, without being affected in any way. Advantageously, the insulation has a thermal conductivity (λ) of the order of 30 to 40 mW / m · K, preferably 30 to 35 mW / m · K. It is also a light product, compressible and especially transportable in compact form (rollers ...). Glass wool is particularly preferred. Advantageously, the profiles of the insulation system are T-shaped or L-shaped sections of which - a foot part is intended to be fixed in abutment on a part on a flat part of a console, at an adjustable distance from a wall 2946064 i0 - a head portion constitutes a flat bearing surface of a facing plate, the head portion comprises in particular one or two return wings. The T-shaped or L-shaped profile advantageously comprises one or two return wings, so as to maintain the insulating wool, without requiring the use of star pegs. The facing plates are preferably selected from plasterboard, cement, or ribbed expanded metal, wire mesh or equivalent coated with a thick plaster in all cases, or a thick or thin plaster for the plates. plaster or cement. They are for example made of mineral material plates resistant to humidity or adapted to use in damp rooms, particularly meeting the H1 classification. They can in particular be based on a hydraulic setting binder such as plaster and / or cement, and possibly include fillers and / or reinforcements, in particular synthetic material in the form of beads (polystyrene, expanded clay, etc.), fibers According to a particularly preferred embodiment, they consist essentially of light plates permeable to water vapor. Products based essentially on mineral material including gypsum may be used for this purpose. They are available in sizes of 2500 x 1200 x 12.5 mm particularly advantageous for transport. For the finishing of the facade, on the facing plates, it is possible, in a manner known per se, to provide a base coating, a reinforcing grid, covered with a finishing coating. Examples of products that can be used according to the invention are available in the Saint-Gobain group: these include gypsum boards marketed by the Gyproc company under the GlasRoc registered trademark, or cement slabs marketed by Gyproc under the name Gyproc. the registered trademark Placocem. According to another preferred embodiment, the facing plates consist of a ribbed expanded metal sheet coated with thick plaster (> 10 mm), in two successive layers. An example of ribbed expanded metal is marketed by Chabanne Bâtiment, under the registered trademark Il Nerplac. The thick plaster may consist of cement, be breathable with respect to moisture, and its porosity is high. The invention furthermore relates to a console comprising a first flat support part and attachment to a wall to be insulated, and a second flat part perpendicular to the first support, holding and adjustable distance fixing of said wall, of profiles, bracket consisting essentially of a thermal conductivity material at most equal to 0.5 W / mK According to other preferred features of this console: - it is made of a material that does not participate in the maintenance of the fire, and has a resistance to direct exposure to fire of at least five minutes (no significant mechanical impairment on exposure to 30 kW during this time); - It is made of a resin selected from an epoxy resin, polyester such as isophthalic, vinyl ester, polyimide, phenolic, polyetheretherketone, polyaryletherketone, phenylene polysulfide, polyarylsulfone, polyethersulfone, silicone, phthalonitrile, alone or in a mixture of several of these, and loaded especially with glass fiber, aramid or carbon, or additives such as flame retardant; it is made of a fiber-reinforced resin composite material and has at least one structure with fibers oriented mainly parallel to said surface, in particular derived from a resin-impregnated fiber mat or web; - The second flat portion is split into a slot, describing in particular a symmetry of the free end of the second portion 25 for receiving at least an end portion of the first portion of the profiles. The invention will be better understood in the light of the accompanying drawings in which: - Figure 1 is a general perspective view of the insulation system 30 of the invention seen from the inside, that is to say from the wall to isolate; - Figure 2 is a schematic top view in section of the insulation system of the invention on a damaged wall. The thermal and acoustic insulation of an outer wall not shown in FIG. 1 essentially comprises a glass wool mattress 1 and mineral facing plates 2. The glass wool 1 has a density of 23.5 kg / m3. The mattress is available in rolls of 1200 mm length (width of a le). Once unrolled and decompressed the mattress exists in several thicknesses, including 50, 80, 100, 120 and 140 mm. The mineral facing plates 2, sold under the trademark GlasRoc trademark by the company Gyproc, have dimensions of 2500 x 1200 x 12.5 mm; their mass per unit area is 9 kg / m2. They preferably have a water-resistant core, covered on each side with reinforcements of glass mats embedded in a layer of polymer-modified plaster, itself each time coated with adhesion of an acrylic coating. Plasterboard plates known for this purpose are described in US Pat. No. 6,524,679 and WO 2007/004066.

These plates are easy to cut and use, impact resistant, water resistant and vapor permeable. They support moisture well. They do not contain paper or starch that could promote the development of mold.

They have good fire resistance, better wet dimensional stability than cement boards, and relatively high flexural strength (modulus of rupture greater than 12 MPa). In addition they are not friable unlike most fiber reinforced cement boards.

They are significantly lighter than cement-fiber plates of the same size, whose surface mass is of the order of 13 to 14 kg / m2. The facing plates 2 are screwed to the metal sections 5, by means of galvanized metal screws not shown.

As mentioned above, the facing plates 2 are covered with adhesion of a base coat, a fabric web or grid, and then a finishing coating. 13 The joints between the facing plates are reinforced with mortar and a reinforcing grid approximately 10 cm wide. It should be noted that the insulation system is advantageously mounted without an air knife, that is to say that the plates 2 are applied directly against the exposed face of the insulating material 1. In the same way the rear face of the insulating material is directly applied against the wall to be insulated. This construction is advantageous in view of its simplicity; it also gives a great strength to the envelope thus produced to the extent that any distortion during impact on the facing plates can be avoided or reduced. This is achieved without prejudice to the integrity of the materials through the use of water vapor permeable facing boards. Nevertheless, a ventilated air gap can be put in place by the end user if he wishes, or in the case of the use of ribbed expanded metal with thick plaster, instead of plasterboard or cement. Indeed, a thick plaster has low breathability. In the embodiment shown in the two figures, the support and the maintenance of the insulation are mainly ensured by the cooperation of two types of elements: brackets 3 and metal sections 5.

The arrangement of consoles and their number per square meter depends on the local wind load, easily calculated by those skilled in the art. For areas with more severe winds in Europe, for example, a console will be chosen every 1.50 m in height and 0.60 m in width. In a preferred embodiment, the width spacing will be reduced to 0.40 m so as to overcome the use of star pegs, and thus save installation time: the light mineral wool is then directly held by the uprights. vertical, sufficiently constricted. For better load distribution, the consoles are staggered, alternating the position of the wall attachment on each side of the profile, along it.

The consoles 3 are arranged every 1.20 m in height and 0.60 m in width. The brackets 3 have a shear strength of 700 N, in traction of 3000 N. 14 Each bracket 3 comprises - a first substantially flat portion 31 intended to be pressed against the wall to be insulated, generally vertical, and - a second substantially flat portion 32 perpendicular to the first 31 positioned vertically. It is L-shaped, with a profile in the angle such that the amount of material in this area achieves a thickness in the direction of the bisector of the angle greater than the thickness of the neighboring planar portions. The bracket 3 is fixed to the wall by means of one or more screws or a stud 7 or equivalent (only one of which is shown), which can themselves be associated with pins introduced into the wall to be insulated. The second flat portion 32 of the console 3 is split so as to form a slot 34 for receiving a foot portion 51 of a profile 5 T vertical. The shape of the slot 34 is adapted to that of the foot part 51 so that the depression of the latter is adjustable thereto, and that this depression is carried out with a certain resistance if necessary, the slot being able to then be shaped to accommodate the foot portion 51 with clamping. When the depression is adjusted as desired, the attachment of the foot portion 51 of the T-section 5 to the bracket 3 is made by means of a screw 7 at least, preferably two to avoid rotational movements. The console 3 is made of isophthalic resin reinforced with glass fibers and pultruded with a mat of glass fibers long (a few centimeters) integrated 25 near its surface (one edge of the slot at the edge of the other slot) on a thickness of about 1 to 2 millimeters, and short glass fibers in the resin mass. The thicknesses of the different plane portions 31, 32 of the bracket 3 are between 5 and 15 mm, preferably of the order of 10 mm. Typically, the slot is made with a width of the order of 2 mm with a clearance of 0.2 to 0.5 mm, this game being zero at the free edge of the console. It is essentially a material that is difficult to fuel (meeting the A2 or B classification of European standards). This material has a thermal conductivity of 0.3 W / m.K, which on the other hand of the console a thermal bridge breaker. The profile 5 T is metallic. The head portion 52 of the T constitutes the flat bearing surface of the facing plates 2. The plasterboard can thus be fixed to the profiles by coming into contact with the surface of the insulation without forming an air knife. The glass wool 1 is held by the return wings 53 of the profile 5. The metal section 5 can also be in L, while retaining most of the features of the T-sections described above. An L-shaped profile is practical to delimit all openings: door, bay, window ... In the case of a heavily damaged wall (Figure 2), the installation of a traditional rigid insulation (polystyrene, dense rock wool .. .) would need to swallow the entire facade to have acceptable flatness.

This long and costly approach can be avoided here: - a console 3a is fixed on the most salient point of the facade, and the metal profile 5a T is pushed down in the console 3a, - the other consoles 3b are fixed on the wall 0, and the profiles 5b are more or less embedded in the consoles 3b, so that all the profiles 5a, 5b have a perfect flatness, - the plates are then screwed on the profiles, then covered with plaster. To easily catch defects of several cm, a not shown shim can be fixed under the brackets 3. The wedge will preferably be a block of brick or concrete, pegged and / or bonded with mortar on the wall O. In reference to Figures 1 and 2, it is neither excluded nor required in the context of the invention, the mineral wool 1 is fixed to the wall 0 by any means such as peg star or equivalent. The wall attachment system described is reliable without the need for bonding the elements of the insulation, but instead avoiding the use of components that block the passage of moisture. The use of the consoles forming the thermal breaker ensures that the influence of the frame on the value U (heat transfer coefficient 16 U = 1 / RT where RT is the total thermal resistance of the wall) representing the thermal losses of the wall is less than 3%, advantageously less than 1%. The insulation system described is light, easy to mount and fast, and has a satisfactory behavior in the accelerated aging conditions described in ETAG 004: no change in appearance or structural is observed after the cycles heat / rain and freeze / thaw. Satisfactory mechanical strength is maintained after these stresses. Its resistance to perforation and impact is also excellent.

Claims (16)

CLAIMS1 exterior building insulation system comprising - insulating elements (1) - covered with facing plates (2), fixed on - a set of profiles (5) reported on the wall (0) to isolate, characterized in that the insulating elements (1) and the profiles (5) are held by brackets (3) comprising a first substantially planar portion (31) of support and attachment to the wall (0) to be insulated and a second part (32) substantially flat, support, holding and adjustable distance fixing of said wall (0), for a substantially flat first portion (51) of the profiles (5) which comprise a second substantially flat bearing portion (52) facing plates (2), and the brackets (3) are made of a thermal conductivity material at most equal to 0.5 W / mK 15 2. Insulation system according to claim 1, characterized in that the profiles (5) are vertical and the second part (32) of the consoles (3) is positioned vertically. 3. Insulating system according to one of the preceding claims, characterized in that the second part (32) of the brackets (3) is split into a slot (34) for receiving at least one end fraction of the first part (51) of the profiles (5). 4. Insulation system according to claim 3, characterized in that the slot (34) describes a symmetry of the free end of the second part (32) of the consoles (3). 25 5. Insulation system according to claim 3, characterized in that the fixing of the profiles (5) to the consoles (3) is performed by means of three holes aligned respectively in the two walls of the slot (34) and the first part (51) profiles. 6. Insulation system according to one of the preceding claims, characterized in that the brackets (3) have a minimum shear strength of 700 N and a minimum tensile strength of 2000 N. 7. Insulation system according to one of the preceding claims, characterized in that the consoles are fiber reinforced resin composite material 18, and have at least in the vicinity of a surface a structure with fibers oriented mainly parallel to said surface, in particular derived from a mat or fiber web impregnated with resin. 8. Insulation system according to one of the preceding claims, characterized in that the bracket (3) is of a material that does not participate in the maintenance of fire, and has a resistance to direct exposure to fire. at least five minutes. 9. Insulation system according to one of the preceding claims, characterized in that the bracket (3) is epoxy resin, polyester such as isophthalic, vinyl ester, polyimide, phenolic, polyetheretherketone, polyaryletherketone, phenylene polysulfide, polyarylsulfone, polyethersulfone, silicone, phthalonitrile, alone or in a mixture of several of them, especially loaded with glass fibers, aramid or carbon, or additives such as flame retardants. 15 10. Insulation system according to one of the preceding claims, characterized in that the insulating elements (1) are based on mineral wool having a density at most equal to 50 kg / m3, preferably between 7 and 40 kg / m3. 11. Insulation system according to one of the preceding claims, characterized in that the profiles (5) are T-shaped or L-shaped sections of which - a foot portion (51) is intended to be fixed in abutment on a flat portion (32) of a bracket (3), at an adjustable distance from a wall (0) to be insulated, and - a head portion (52) constitutes a flat bearing surface of a facing plate ( 2), the head portion comprises in particular one or two return wings (53). 12. Console (3) comprising a first flat portion (31) of support and attachment to a wall (0) to be insulated, and a second flat portion (32) perpendicular to the first (31) support, holding and fixing adjustable distance from said wall (0), profiles (5), console (3) consisting essentially of a thermal conductivity material at most equal to 0.5 W / mK 13. Console according to claim 12, characterized in that it is made of a material that does not participate in the maintenance of fire, and 19 has a resistance to direct exposure to fire of at least five minutes. 14. Console according to claim 12 or 13, characterized in that it is a resin selected from epoxy resin, polyester such as isophthalic, vinyl ester, polyimide, phenolic, polyetheretherketone, polyaryletherketone, phenylene polysulfide, polyarylsulfone, polyethersulfone, silicone, phthalonitrile, alone or in a mixture of several of these, especially filled with glass fibers, aramid or carbon, or additives such as flame retardants. 15. Console according to one of claims 12 to 14, characterized in that it is made of fiber reinforced resin composite material, and has at least in the vicinity of a surface a structure with fibers oriented mainly parallel to said surface , in particular derived from a mat or fiber veil impregnated with resin. 16. Console according to one of claims 12 to 15, characterized in that the second flat portion (32) is split into a slot (34), describing in particular a symmetry of the free end of the second portion (32) , intended to receive at least an end fraction of the first portion (51) of the profiles (5).