FR2918411A1 - Thermoexpansible maintaining sheet for motor vehicle, has particles with chemical compounds, where mass percentage of particles or compounds is decreased at interior of sheet from one side to another side in direction of thickness of sheet - Google Patents

Abstract

The sheet (6) has particles (7) with chemical compounds that are expandable with temperature. A mass percentage of the particle or the chemical compounds is decreased at the interior of the sheet from a side (8) to another side (9) in a direction of thickness of the sheet. Two superposed layers are formed from the side (8) to the side (9) of the sheet in the direction of thickness. The chemical compounds are made by vermiculite, mica, or a compound with carbon base such as graphite. The sheet and the layers are made by refractory ceramic fiber, biosoluble type fiber or glass fiber.

Description

The present invention relates to a thermally-expansible holding sheet

  containing particles of at least one chemical compound expandable with temperature. This invention relates to the field of manufacture of thermoexpansible type elements designed to maintain one object relative to another. In fact, this invention will find a particular application in the sector of the automotive industry, particularly when it comes to manufacturing equipment to ensure the escape of gas from the combustion of a fuel within the automobile industry. an internal combustion engine. In this regard, it will be observed that such equipment is in the form of an exhaust line connected to the engine and having a plurality of exhaust devices connected to each other by exhaust tubes. In particular, such an exhaust device may be designed to ensure a physical and / or chemical pollution of the exhaust gases before their release into the atmosphere. Such a depollution device may then be in the form of a device for treating gas as a catalyst or, in the form of a device for treating the particles contained in these gases, such as a filter particles (FAP). In fact, such a depollution device is usually constituted, on the one hand, by a casing, in particular tubular and / or metallic, on the other hand, by a depollution element, in particular a ceramic or other, arranged on the outside. interior of said envelope and, secondly, by a holding ply, interposed between the depollution element and the casing, and designed to ensure the maintenance of this depollution element with respect to this envelope. This holding ply is made of a material containing particles of at least one chemical compound expandable with temperature and imparting to such a ply a thermoexpansible character.

  In this regard, it will be observed that, for such a web, it seeks, essentially, a relatively homogeneous distribution of the particles within the material of the web, so as to obtain a good homogeneity of the holding characteristics on all parts of this tablecloth. However, the particles of the thermoexpansive chemical compounds or compounds have a certain mass which tends, under the effect of gravity, to migrate these particles towards the lower part of the sheet. Such a phenomenon does not in any way guarantee the distribution, and even more so, the homogeneity of this distribution, of these particles within the material of the web. As evoked above, such a holding ply enters the composition of a depollution device and can be interposed between an envelope and a depollution element inside which, usually, gaseous gases flow. exhaust whose temperature can be high. Under the effect of this temperature, there is established, between the inside and the outside of the depollution device, a thermal gradient which is not taken into account by the material of the sheet due to the homogeneity of the distribution of thermoexpansible particles. The present invention is intended to overcome the disadvantages of maintaining webs of the state of the art. For this purpose, the invention relates to a heat-expandable holding sheet containing particles of at least one chemical compound that is expandable with temperature, characterized in that, within this layer, the mass percentage of the particles of the expansive chemical compounds decreases, this from one side to the other of this sheet and in the sense of the thickness of this sheet. Another feature is that the web has, in the direction of thickness, at least two superposed layers succeeding one side to another of the web and that the mass percentage of the particles of the chemical compound or compounds decreases from one side to the other of this sheet, in particular from one layer to the other of this sheet, this in the direction of the thickness of this sheet. An additional feature relates to the fact that, within the same layer, the mass percentage of the particles of the chemical compound or compounds, as the case may be, is substantially homogeneous or decreases from one side to the other of this layer, this in the direction of the thickness of this layer. According to another characteristic, at least one of the layers, preferably each layer, is constituted by a sheet, in particular a holding sheet, for example of thermoexpansible type, an insulation sheet or the like. Another feature is that the temperature-expandable chemical compound is a flake mineral chemical compound, more particularly vermiculite, mica or a carbon-based compound such as graphite. According to an additional feature, the web and / or at least one of the layers of this web is made, at least in part, of a fibrous type material, in particular a composite material containing fibers. The invention also relates to a depollution device that comprises an exhaust line of the gases resulting from the combustion of a fuel within a heat engine of a motor vehicle and comprising, on the one hand, an envelope as well as an exhaust element for the depollution of the gases arranged inside this envelope and, on the other hand, a thermoexpansible holding sheet, interposed between the depollution element and the envelope, and designed to ensure the maintenance of this element of depollution in this envelope. This depollution device is characterized in that its thermoexpansible holding ply has the characteristics mentioned above. The advantages of the present invention consist in that the manufacture of a holding ply is considerably facilitated since it is no longer necessary, on the one hand and during the manufacture of such a ply, to scrupulously ensure that the homogeneity of the distribution of the thermoexpansible particles and, secondly, to ensure such homogeneity during its duration of use.

  In addition, the inhomogeneity of the distribution of these particles makes it possible to envisage various uses, more particularly as a function of the different applications of such a holding ply. Thus, for a so-called cold application, the side of the web having the highest mass percentage of particles may be positioned at a substrate, for example a depollution element. This advantageously allows a rapid expansion of the thermoexpansible particles having the effect of optimizing the maintenance provided by the holding ply. In the context of a so-called hot application, the side of the web having the lowest mass percentage of particles may be positioned at the substrate. This advantageously makes it possible to provide thermal protection for the thermoexpansible particles by means of the material constituting this side of the sheet and having thermal insulation characteristics. Other objects and advantages of the present invention will become apparent from the following description relating to embodiments which are given by way of indicative and non-limiting examples. The understanding of this description will be facilitated with reference to the appended drawings in which: FIG. 1 is a schematic and sectional view of a first embodiment of a web according to the present invention and comprising a single layer containing particles of at least one thermoexpansible chemical compound of decreasing mass percentage; FIG. 2 is a schematic sectional view of a web, according to a second embodiment of the present invention, consisting of a superposition of layers containing particles of at least one thermally-expansible chemical compound and for which the percentage mass of the particles of the chemical compound or compounds decreases from one layer to the other; FIG. 3 is a view similar to the previous one and corresponds to a third embodiment of a sheet constituted by a superposition of layers, one of which contains particles whose mass percentage is substantially homogeneous while the other contains particles whose mass percentage decreases from one side to the other of this layer; - Figure 4 is a schematic and in longitudinal section of a pollution control device comprising a holding ply according to the present invention and designed to ensure the maintenance of a depollution element inside an envelope; - Figure 5 is a schematic view corresponding to a detail of the device shown in Figure 4 and relating to the maintenance of a pollution control element by a holding ply according to the invention.

  The present invention relates to the field of manufacture of thermoexpansible type elements designed to maintain one object relative to another. This invention will find a particular application in the sector of the automotive industry, especially when it comes to manufacturing equipment to ensure the escape of gases from the combustion of a fuel within an engine thermal internal combustion. In this respect, it should be observed that such equipment is in the form of an exhaust line, connected to this engine, and constituted by a plurality of exhaust devices usually connected to each other by tubes of 'exhaust. In particular, such an exhaust line comprises at least one exhaust device designed to ensure a physical and / or chemical pollution of the exhaust gas before their release into the atmosphere.

  Such a depollution device 1 can then be in the form of a device for treating gas as a catalyst or even in the form of a device for treating the particles contained in these gases as a filter particulate matter (FAP). As can be seen in FIG. 4, such a depollution device 1 comprises, on the one hand, a casing 2, usually made of a metallic material, and constituted, as the case may be, by a tubular element (in particular of the welded rolled type). or by an assembly of two half-shells. On the other hand, such a depollution device 1 comprises, internally, a depollution element 3, intended to be traversed by the flow of exhaust gas, and designed to ensure the cleanup of gases entering this pollution control device 1 Such a depollution element 3 is, for example, in the form of a ceramic block 4 or the like. This depollution device 1 comprises, on the other hand and internally, at least one means 5, interposed between the depollution element 3 and the casing 2, and designed to ensure the maintenance of this depollution element 3 with respect to this envelope 2. A particular embodiment of such an exhaust device 1 is to take advantage of the temperature of the exhaust gas and to interpose, between the pollution control element 3 and the casing 2, a means 5 holding member constituted by a sheet 6 of thermoexpansible type, that is to say containing particles 7 of at least one chemical compound expandable with temperature. Thus, and under the effect of the temperature of the exhaust gas circulating in the depollution device 1, this thermally-expansible sheet 6 will then swell to ensure or reinforce the maintenance of the depollution element 3 with respect to the According to the invention, such a heat-expandable sheet 6 is designed so that, inside this sheet 6, the mass percentage of the particles 7 of the expandable chemical compound or compounds decreases, this on one side 8 to the other 9 of this ply 6 and in the direction of the thickness 10 of this ply 6. The inhomogeneous distribution of the particles 7 through the thickness 10 of the ply 6 holding advantageously, to consider 6. In particular and as illustrated in FIGS. 4 and 5, this allows a so-called cold use in which the side 8 of the ply 6 having the highest percentage by mass of particles 7 will be positioned at the level of the ply. 'él ment depollution 3 to enable a rapid expansion of thermo-particles 7 in order to optimize the maintenance of the clearance element 3 by the web 5 holding.

  Conversely and in the context of a so-called hot application, the side 9 of the web 5 having the lowest mass percentage of particles 7 may be positioned at a substrate. This advantageously makes it possible to provide thermal protection for the heat-expandable particles 7 via the material constituting this side 9 of the ply 6, and which then has thermal insulation characteristics. As mentioned above, the heat-expandable sheet 6 according to the invention contains particles 7 whose mass percentage decreases from one side 8 to the other 9 of this sheet 6. In this respect, it will be observed that, according to the invention, on the side 8 of the web 6 where the mass percentage of the particles 7 of the expandable chemical compound (s) is the highest, these particles 7 represent between 15 and 65% by weight of this layer 6. This is, more particularly , the case at or near the surface 11 of this side 8 of the ply 6. It will also be noted that on the side 9 of the ply 6 where the mass percentage of the particles 7 of the expansible chemical compound (s) is the lower, these particles 7 represent between 0 and 15% by weight of this web 6. Here again, this is, more particularly, the case at or near the surface 12 of this side 9 of the web 6. particular embodiment of the invention relates, then, a sheet 6 without holding thermoexpansable particles 7, this at one of the 9 sides 8, 9 of this web 6. According to a first embodiment, such a heat-expandable sheet 6 may be constituted by a single layer of a heat-expandable material containing particles 7 of at least one expansible chemical compound as illustrated in FIG. 1. In such a layer, the reduction of the mass percentage of the particles 7 from one side 8 to the other 9 of the sheet 6 is preferably progressive. , even regular. However, according to another embodiment of the invention illustrated in FIGS. 2 to 5, such a heat-expandable sheet 6 comprises, in the direction of the thickness 10, at least two superimposed layers 13, 13 'on one side. to the other 9 of the web 5. Here again and in accordance with the invention, the mass percentage of the particles 7 of the expandable chemical compound (s) decreases, this from one side 8 to the other 9 of this sheet 6 and in the thickness direction of this ply 6. In this respect, it will be observed that, according to a preferred embodiment of the invention, this mass percentage (in particular the average of this mass percentage within the same layer 13, 13 ') decreases, in fact, a layer 13; 13 'to the other 13'; 13 "of this ply 6, this between one side 8 and the other 9 of the ply 6 (Figure 2) With regard to the mass percentage of the particles 7 of the chemical compound (s) within the same layer 13, 13 ', it may, according to a first embodiment of the invention, be substantially homogeneous, this from one side to the other of this layer 13, 13' and in the direction of the thickness of such a layer 13, 13 '.

  In such a case and as illustrated in FIG. 3, said ply 6 may comprise, on one side 8 of this ply 6, a layer 13 containing particles 7 of the expansible chemical compound or compounds which represent, on average, between 15 and 65% The distribution of the particles 7 is substantially homogeneous in the direction of the thickness of such a layer 13. In addition, and in such a case, said web 6 may comprise, on the other side 9 of this sheet 6, a layer 13 "containing particles 7 or expandable chemical compounds which represent, on average, between 0 and 15% by weight of this layer 13". Here again, the distribution of particles 7 is substantially homogeneous in the direction of the thickness of such a layer 13. A particular embodiment of the invention then consists in that such a layer 13 "is devoid of thermoexpansible particles 7 (0% by weight of this layer 13 "). Yet another particular embodiment of the invention consists in that the sheet 6 according to the invention comprises a plurality of layers 13, 13 'and within each of these layers 13, 13 ', the mass percentage of the particles 7 is substantially homogeneous, in this respect it will be observed that such homogeneity within the same layer 13, 13 ', 13' is particularly difficult to obtain, in a controlled manner, by the traditional processes for manufacturing heat-expandable sheets, in particular because of the migration of the thermoexpansible particles. Also and according to another embodiment of the invention, such a layer 13 is made in such a way that the mass percentage of the particles 7 of the expansible chemical compound (s) within a same layer 13 decreases by side to side of this layer 13, this in the direction of the thickness of this layer 13. In such a case, said web 6 may comprise, on one side 8 of this sheet 6, a layer 13 containing particles 7 or expansible chemical compounds whose weight percentage decreases from 65 to 15% by weight from one side to the other of this layer 13, this in the direction of the thickness of this layer 13. In such a case, the ply 6 may comprise, on the other side 9 of this ply 6, a layer 13 'containing particles 7 or expansible chemical compounds whose mass percentage decreases from 15 to 0% by weight from one side to the other. other of this layer 13 ', this in the direction of the thickness of this layer 13' as illustrated Thus, in the latter case, the ply 6 is devoid of particles 7 at the surface 12 of this other side 9 of this ply 6. A particular embodiment of the invention consists in that the ply 6 in accordance with the invention comprises a plurality of layers 13, 13 'and in that, within each of these layers 13, 13', the mass percentage of the particles 7 decreases from one side to the other of this layer 13, 13 ', this in the direction of the thickness of such a layer 13, 13'. However, a particular (but not limiting) embodiment of the invention is that the web 6 has a plurality of layers 13, 13 'and at least one of these layers has, within such a layer 13, thermoexpansible particles 7 whose mass percentage is substantially homogeneous (from one side to the other of this layer 13 and in the direction of the thickness of this layer 13) while at least one other 13 'of these layers comprises thermoexpansable particles 7 whose mass percentage decreases (from one side to the other of such a layer 13' and in the direction of the thickness of such a layer 13 '). FIG. 3 illustrates such an embodiment that the heat-expandable sheet 6 comprises, on the one hand and on one side 8 of this sheet 6, a layer 13 inside which the percentage by mass of expandable particles 7 is substantially homogeneous, from one side to the other of this layer 13 and in the direction of the thickness of this layer 13 and, on the other hand and on the other side 9 of this sheet 6, a layer 13 'within which the mass percentage of the expandable particles 7 decreases, from one side to the other of this layer 13' and in the direction of the thickness of this layer 13 '. Another feature of the invention is that at the juxtaposition between two layers 13, 13 ', the mass percentage of particles 7 of these two layers 13, 13' is substantially identical. Such a characteristic makes it possible to ensure a continuity of the characteristics and the behavior (in particular with respect to the thermal and / or mechanical stresses) at this junction between these two layers 13, 13 '. According to an additional feature, at least one layer 13, 13 'of the ply 6 has a thickness substantially corresponding to that of at least one other layer 13', 13 "of this ply 6. A particular embodiment illustrated in Figure 3 consists in that the ply 6 is constituted two layers 13, 13 'and each layer 13, 13' has a thickness corresponding to half the thickness of the ply 6.

  Another characteristic of the present invention consists in that at least one of the layers 13, 13 'of the ply 6 (preferably each of the layers of this ply 6) is itself constituted by a ply, in particular a holding ply (for example of thermoexpansible type), an insulation ply or the like. In such a case, two of these layers 13, 13 ', each consisting of plies, are glued one 13 to the other 13' for the production of a thermoexpansible sheet 6 according to the invention.

  According to the invention, at least one chemical compound that is expandable with temperature is constituted by a mineral chemical compound in a sheet, more particularly vermiculite, mica or a carbon-based compound such as graphite. An additional feature is that the heat-expandable web 6 can, again, contain means for slowing or even preventing the migration of the expansible chemical compound (s) with the temperature. According to another characteristic of the invention, the heat-expandable ply 6 and / or at least one layer 13 of this ply 6 is made, at least in part, of a fibrous-type material, in particular a composite material containing fibers. Such a material is then capable of additionally containing particles 7 of at least one chemical compound expandable with temperature.

  In this regard, it will be observed that the fibers used in the composition of such a sheet 6 and / or at least one such layer 13 are constituted by refractory ceramic fibers (more particularly based on aluminum oxide, in particular of chemical composition AL2O3, or of silica oxide, in particular of SiO2 chemical composition), by fibers of the biosoluble type or by glass fibers (in particular based on silica). Finally, the invention relates to a pollution control device 1 which comprises an exhaust line of gases from the combustion of a fuel within a heat engine of a motor vehicle. As evoked above and as visible in FIGS. 4 and 5, such a device 1 comprises, on the one hand, an envelope 2 and an exhaust element 3 for the clearance of gases disposed inside this envelope 2 and, on the other hand, a thermoexpansible holding ply 6, interposed between the depollution element 3 and the casing 2, and designed to ensure the maintenance of this depollution element 3 in this casing 2. Advantageously , the thermoexpansible holding ply 6 that comprises this depollution device 1 has the above-mentioned characteristics. In this respect, it will be observed that such a device 1 for cleaning up the gases may consist of an element for the post-treatment of the exhaust gases (in particular in the form of a catalyst or the like) and / or the particles contained therein. in such an exhaust gas (in particular a particulate filter or other).

Claims (12)

  Thermoexpansible holding web (6) containing particles (7) of at least one temperature-expandable chemical compound, characterized in that, within said web (6), the mass percentage of the particles ( 7) of the expandable chemical compound (s) decreases, from one side (8) to the other (9) of this sheet (6) and in the direction of the thickness (10) of this sheet (6).   2. tablecloth (6) thermoexpansible holding according to claim 1, characterized in that, on one side (8) of the web (6), the particles (7) of the expansible chemical compound (s) represent between 15 and 65 % by mass of this web (6) while on the other side (9) of the web (6) these particles (7) represent between 0 and 15% by weight of this web (6).   3. tablecloth (6) thermoexpansible holding according to any one of the preceding claims, characterized in that it comprises, in the direction of the thickness (10), at least two layers (13, 13 ', 13 " ) superimposed succeeding one side (8) to the other (9) of the web (6) and that the mass percentage of the particles (7) of the expandable chemical compound (s) decreases from one side (8) to the another (9) of this ply (6), in particular from one layer (13; 13 ') to the other (13'; 13 ") of this ply (6), this in the direction of the thickness ( 10) of this web (6).   4. tablecloth (6) thermoexpansible holding according to claim 3, characterized in that, within the same layer (13), the mass percentage of the particles (7) of the expandable chemical compound (s), according to the case, is substantially homogeneous or decreases from one side to the other of this layer (13), this in the direction of the thickness of this layer (13).   5. tablecloth (6) thermoexpansible holding according to any one of claims 3 or 4, characterized in that, on one side (8) of the ply (6), it comprises a layer (13) containing particles (7) of the expandable chemical compound (s) which, on average, represent between 15 and 65% by weight of this layer (13), or have, in the direction of the thickness, a mass percentage which decreases 65 to 15% by weight from one side to the other of this layer (13).   6. tablecloth (6) thermoexpansible holding according to any one of claims 3 to 5, characterized in that, on the other side (9) of the ply (6), it comprises a layer (13) containing particles (7) of the expandable chemical compound (s) which represent, on average, between 0 and 15% by weight of this layer (13), or have, in the direction of the thickness, a mass percentage which decreases from 15 to 0% by weight from one side to the other of this layer (13)   7. tablecloth (6) thermoexpansible holding according to any one of claims 3 to 6, characterized in that each layer (13) has a thickness substantially corresponding to that of at least one other layer (13 ').   8. tablecloth (6) thermoexpansible holding according to any one of claims 3 to 7, characterized in that at least one (13) of the layers (13, 13 ', 13 "), preferably each layer of the heat-expandable sheet (6) is constituted by a sheet, in particular a holding sheet, for example of thermoexpansible type, an insulation sheet or the like.   9. tablecloth (6) for maintaining thermoexpansible according to any one of the preceding claims, characterized in that at least one chemical compound expandable with temperature is constituted by a mineral chemical compound in sheet, more particularly vermiculite, mica or a carbon-based compound such as graphite.   10. Tablecloth (6) thermoexpansible holding according to any one of the preceding claims, characterized in that the web (6) and / or at least one of the layers (13) of said web (6) is made, at least in part, a fibrous type material, in particular a composite material containing fibers.   11. Tablecloth (6) thermoexpansible holding according to claim 10, characterized in that the fibers used in the composition of the ply (6) and / or at least one layer (13) of this ply (6) are constituted by refractory ceramic fibers or by fibers of biosoluble type or by glass fibers.   12. Device (1) for the depollution of an exhaust line of the gases resulting from the combustion of a fuel within a heat engine of a motor vehicle and comprising, on the one hand, an envelope (2) as well as an exhaust element (3) for the depollution of gases disposed inside this envelope (2) and, on the other hand, a thermoexpansible holding sheet (6) interposed between the depollution element. (3) and the casing (2), and designed to ensure the maintenance of this depollution element (3) in this casing (2), characterized in that the sheet (6) of thermoexpansible holding is in accordance with the any of the preceding claims.