Method for producing a soundproofing trim panel for the interior of a motor vehicle

Abstract

The invention relates to a method of producing a sound proofing trim panel comprising the steps of providing an elastically compressible lower layer, heating the lower layer and placing it in a mould to shape it to form a spring layer of a spring-mass type damping system. The method further includes associating the lower layer with an upper layer, to form the mass of the spring-mass system. According to the invention, the lower layer comprises a blend of elastically compressible foam flakes forming at least 80 wt.-% of the lower layer and being mixed with binder fibres. The fibres comprising a core and a sheath that is fusible at a moderate temperature, and the flakes being bonded to one another by means of the fusing of the sheath forming a binder, such that the lower layer takes the form of a bonded foam.

Claims

1. A method for producing a soundproofing trim panel for the interior of a motor vehicle, the method comprising the following steps: providing an elastically compressible lower layer, the layer being able to be shaped by heating in such a way as to be able to adopt a stable geometry after shaping, heating the lower layer and placing in a mould such as to shape it to form a spring layer of a spring-mass type insulation system, associating the lower layer with an upper layer forming the mass of the spring-mass system, the upper layer being of a sealed or porous nature and associated with a sealing layer arranged between the upper and lower layers, the method being wherein: the lower layer is made from a blend of elastically compressible foam flakes, the flakes being from recycling, the flakes form at least 80% by weight of the lower layer, the flakes are mixed with binder fibres, the fibres comprising a core, and a sheath that is fusible at a moderate temperature, the flakes being bonded to one another by means of the fusing of the sheath forming a binder, such that the lower layer takes the form of a bonded foam.

2. The method according to claim 1, wherein the lower layer has before its shaping in the mould a density less than 0.025 kg/liter.

3. The method according to claim 1, wherein the lower layer has before its shaping in the mould a thickness less than 50 mm.

4. The method according to claim 1, wherein the flakes occupy between 90 and 80% by weight of the lower layer such that the fibres occupy between 10 and 20% by weight of the layer.

5. The method according to claim 1, wherein the flakes of the lower layer have a polyurethane base.

6. The method according to claim 1, wherein the upper layer has a minimum area density of 700 g/m.sup.2.

7. The method according to claim 1, wherein the upper layer is porous and in that the method further comprises a step of placing a sealing layer between the upper layer and the lower layer, the sealing layer being in the form of a thermoplastic film or of a sealed coated non-woven material, with a thickness less than 200 microns, the panel forming an insulating system, of the spring-mass type, and absorbent through the porosity of the upper layer.

8. The method according to claim 1, wherein the upper layer is sealed, with a thermoplastic elastomer base provided with a dispersed filler, the panel producing a sound insulation of the spring-mass type.

9. A panel produced by a method according to claim 1, the panel comprising: a lower layer shaped by heat in order to form the spring layer of an insulation system of the spring-mass type, and an upper layer forming the mass of the spring-mass system, the upper layer being of a sealed or porous nature and associated with a sealing layer arranged between the upper and lower layers, the panel wherein: the lower layer is made from a blend of elastically compressible foam flakes, the flakes being from recycling, the flakes form at least 80% by weight of the lower layer, the flakes are mixed with binder fibres, the fibres comprising a core, the core that may or may not be fusible at a high temperature, and a sheath that is fusible at a moderate temperature, the flakes being bonded to one another by means of the fusing of the sheath forming a binder, such that the lower layer takes the form of a bonded foam.

10. A mounting of a panel according to claim 9, the mounting comprising the panel and a structural wall of the body of the vehicle, the panel being placed on the wall, the lower layer being turned towards the wall.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Other particularities and advantages of the invention shall appear in the following description, given in reference to the accompanying figures, wherein:

(2) FIG. 1 is a cross-section schematic view of a panel according to an embodiment mounted in a vehicle,

(3) FIG. 2 is a cross-section schematic view of a binder fibre.

DETAILED DESCRIPTION

(4) In reference to the figures, a method for producing a soundproofing trim panel 1 for the interior of a motor vehicle is described, the method comprising the following steps:

(5) providing an elastically compressible lower layer 2, the layer being able to be shaped by heating in such a way as to be able to adopt a stable geometry after shaping,

(6) heating the lower layer and placing same in a mould such as to shape it to form a spring layer of a spring-mass type insulation system,

(7) associating same with an upper layer 3 forming the mass of the spring-mass system, the upper layer being of a sealed or porous nature and associated with a sealing layer 8 arranged between the upper and lower layers,

(8) the method furthermore having the following characteristics:

(9) the lower layer is made from a blend of elastically compressible foam flakes 4, the flakes being in particular from recycling,

(10) the flakes form at least 80% by weight of the lower layer,

(11) the flakes are mixed with binder fibres 5, the fibres comprising a core 6, the core that may or may not be fusible at a high temperature, and a sheath 7 that is fusible at a moderate temperature, the flakes being bonded to one another by means of the fusing of the sheath forming a binder, such that the lower layer takes the form of a bonded foam.

(12) In particular, the lower layer 2 has a substantially homogeneous area density.

(13) According to an embodiment, the lower layer 2 can have after shaping a thickness able to vary from 40 mm, in the non-compressed portion, to 5 mm, in the highly compressed portion.

(14) In particular, it is provided to compress the lower layer 2, for example at the periphery of the panel 1 or according to the size constraints around the panel in the vehicle.

(15) The association between the upper 3 and lower 2 layers is done in particular during the step of shaping the lower layer, the upper layer being arranged in the mould as superposition on the lower layer.

(16) According to an embodiment, the lower layer 2 has before its shaping in the mould a density less than 0.025 kg/liter, and in particular less than 0.020 kg/liter.

(17) According to an embodiment, the lower layer 2 has before its shaping in the mould a thickness less than 50 mm, and in particular of about 40 mm.

(18) According to an embodiment not shown, the lower layer 2 can be covered with a protective layer on at least one of its faces, the layer making it possible to facilitate the preheating before shaping and also to protect the lower layer during the handling of the panel 1, this layer able to be of a nature of the polyester Spun type from 20 to 30 g/m.sup.2 or non-woven.

(19) It is as such possible to have a lower layer 2 with an area density less than 1000 g/m.sup.2, and in particular less than or equal to 700 g/m.sup.2.

(20) According to an embodiment, the flakes 4 occupy between 90 and 80% by weight of the lower layer 2, and in particular between 87 and 83%, and in particular of about 85% in such a way that the fibres 5 occupy between 10 and 20% by weight of the layer, and in particular between 13 and 17%, and in particular of about 15%.

(21) According to an embodiment, the core 6 has a polyester base and the sheath 7 has a copolyester base.

(22) According to an embodiment, the fibres have a content between 1.7 and 6 dtex, and in particular of about 4.4 dtex.

(23) According to an embodiment, the flakes 4 of the lower layer 2 have a polyurethane base.

(24) According to an embodiment, the upper layer 3 has a minimum area density of 700 g/m.sup.2.

(25) According to the embodiment shown, the upper layer 3 is porous and the method further comprises a step of placing a sealing layer 8 between the upper layer and the lower layer 2, the sealing layer being in particular in the form of a thermoplastic film or sealed coated non-woven material, in particular with a thickness less than 200 microns, in such a way that the panel 1 forms an insulating system, of the spring-mass type, and absorbent through the porosity of the upper layer.

(26) According to an embodiment, the upper layer 3 is, when it is porous, with a base of foam flakes, in particular polyurethane, bonded to one another by a binder, in particular in the form of binder fibres such as described hereinabove.

(27) According to another embodiment, the upper layer 3 is, when it is porous, with a fibre base, bonded to one another by a binder, in particular in the form of binder fibres such as described hereinabove.

(28) According to an embodiment, the upper layer 3, when it is porous, can be loaded with dense particles, for example of a thermoplastic elastomer base loaded with a mineral filler.

(29) According to an embodiment not shown, the upper layer 3 is sealed, having in particular a thermoplastic elastomer basein particular of ethylene propylene diene monomerprovided with a dispersed filler, in particular a mineral fillerin particular with a baryte or calcium carbonate base , in such a way that the panel 1 produces a soundproofing of the spring-mass type.

(30) According to the embodiment shown, the method further provides to arrange a layer of coating 9, in particular with a carpet base, on the upper layer 3, in such a way as to form a floor mat of the vehicle.

(31) A panel 1 produced by such a method shall now be described, the panel comprising:

(32) a lower layer 2 shaped by heat in order to form the spring layer of an insulation system of the spring-mass type,

(33) and an upper layer 3 forming the mass of the spring-mass system, the upper layer being of a sealed or porous nature and associated with a sealing layer 8 arranged between the upper and lower layers,

(34) the panel further having the following characteristics:

(35) the lower layer is made from a blend of elastically compressible foam flakes 4, the flakes being in particular from recycling,

(36) the flakes form at least 80% by weight of the lower layer,

(37) the flakes are mixed with binder fibres 5, the fibres comprising a core 6, the core that may or may not be fusible at a high temperature, and a sheath 7 that is fusible at a moderate temperature, the flakes being bonded to one another by means of the fusing of the sheath forming a binder, such that the lower layer takes the form of a bonded foam.

(38) According to an embodiment, the lower layer 2 can have a variable thickness that can vary from 40 mm, in the non-compressed portion, to 5 mm, in the highly compressed portion.

(39) In particular, it can be provided to compress the lower layer 2, for example at the periphery of the panel 1 or according to the size constraints around the panel in the vehicle.

(40) According to an embodiment, the lower layer 2 has in the non-compressed portion a density less than 0.025 kg/liter, and in particular less than 0.020 kg/liter, a density as low as this can be achieved thanks to the use of two-component fibres 5, and this without affecting the performance of the layer as a spring.

(41) According to an embodiment, the lower layer 2 can be covered with a protective layer, not shown, on at least one of its faces, this layer able to be of the polyester Spun type from 20 to 30 g/m2 or non-woven.

(42) Such a protective layer can in particular facilitate the shaping of the lower layer 2, in particular during a step of preheating, and also protect the layer during the handling of the panel 1,

(43) According to an embodiment, the lower layer 2 has an area density less than 1000 g/m.sup.2, and in particular less than or equal to 700 g/m.sup.2, for a thickness ranging up to 40 mm, which is much less than the area densities usually observed for spring layers.

(44) According to an embodiment, the flakes 4 occupy between 90 and 80% by mass of the lower layer 2, and in particular between 87 and 83%, and in particular of about 85% in such a way that the fibres 5 occupy between 10 and 20% by weight of the layer, and in particular between 13 and 17%, and in particular of about 15%.

(45) A mounting of such a panel 1 is finally described, the mounting comprising the panel and a structural wall 10 of the body of the vehicle, the panel being placed on the wall, the lower layer 2 being turned towards the wall.