Composite floor and motor vehicle comprising such a floor

Abstract

The invention relates to a motor vehicle floor having a lower floor made from a composite material; and an upper floor made from a composite material, extending opposite at least part of the lower floor, the lower and upper floors being connected to one another. The floor includes at least one cavity at least partially delimited by the lower or upper floor and communicating with the exhaust line of the motor vehicle.

Claims

1. A motor vehicle floor, comprising: a lower floor made from a composite material, the composite material comprising fibers embedded in a resin; and an upper floor made from a composite material, the composite material comprising fibers embedded in a resin, extending opposite at least part of the lower floor, and the lower and upper floors being connected to one another, wherein the floor comprises at least one cavity at least partially delimited by the lower or upper floor and fluidly communicating with an exhaust line of the motor vehicle.

2. The floor according to claim 1, wherein the cavity is a resonator-forming cavity.

3. The floor according to claim 1, further comprising at least one hollow body delimited by the lower floor and the upper floor.

4. The floor according to claim 3, wherein the at least one hollow body comprises at least one of a soundproofing layer a semi-structural foam or a structural foam.

5. The floor according to claim 1, wherein the cavity is delimited by the lower floor and the upper floor.

6. The floor according to claim 1, wherein the floor comprises a shell, the lower floor comprising a lower face and an upper face, the upper face extending opposite the upper floor, the shell being fastened on the lower face, the cavity being delimited by the lower floor and by the shell.

7. The floor according to claim 6, wherein the shell is fastened to the lower floor by one or more removable mechanical fastening part(s).

8. The floor according to claim 6, wherein the shell is made from a metal or a composite material.

9. The floor according to claim 1, wherein the cavity comprises a fluidic communication member between the cavity and the exhaust line of the motor vehicle.

10. The floor according to claim 1, wherein the lower floor and the upper floor are glued, welded or assembled to one another by one or more fastening member(s).

11. A motor vehicle, comprising: a chassis; and a floor according to claim 1, rigidly fastened to the chassis.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Other features and advantages of the invention will emerge from the detailed description thereof provided below, for information and non-limitingly, in reference to the appended figures, in which:

(2) FIG. 1 is a simplified diagrammatic illustration of a motor vehicle including a floor according to a first embodiment of the invention;

(3) FIG. 2 is a longitudinal sectional view of the floor of FIG. 1;

(4) FIG. 3 is a longitudinal sectional view of a floor according to a second embodiment of the invention;

(5) FIG. 4 is a longitudinal sectional view of the cavity of the floor of FIG. 3.

DETAILED DESCRIPTION OF THE INVENTION

(6) In the rest of the description, the longitudinal, transverse, vertical, front and rear directions will be defined in reference to the normal movement direction of the motor vehicle. The vertical direction here is taken to be the perpendicular to the rolling plane of the vehicle.

(7) The vehicle 2 shown in FIG. 1 comprises a body delimiting, in the vehicle, a passenger compartment 4, an engine compartment 6 situated in front of the passenger compartment, and a rear crossmember 8 delimiting a trunk 10 situated behind the passenger compartment. The engine compartment 6 is separated from the passenger compartment by a firewall 12. The passenger compartment is downwardly delimited by a floor 14. The floor 14 includes a rear floor 16, which will be described below, and a front floor 18. The rear floor 16 and the front floor 18 are connected to one another in a zone 19 situated between a transverse crossmember traditionally called “heel board” and the rear support crossmember of the seats. This connecting zone is commonly called “backseat foot well 2”.

(8) The vehicle further includes seats 20, 21 that are rigidly fastened, directly or indirectly, to the floor 14. The front floor 18 is fastened at the front to the firewall 12 and supports the seats 20 situated in the front of the vehicle. The rear floor 16 is fastened at the rear to the rear crossmember 8, and supports the seats 21 situated in the back of the vehicle, and the trunk 10.

(9) The floor 14 of the vehicle extends from the firewall 12 to the rear crossmember 8 in the longitudinal direction of the vehicle, and extends transversely substantially over the entire width of the vehicle. It is laterally rigidly fastened on the chassis (not shown), more specifically on the side beams of the vehicle 2.

(10) FIGS. 2 and 3 show the rear floor 16 of the floor 14 according to the invention. The rear floor 16 comprises: a lower floor 22 made from a composite material; an upper floor 24 made from a composite material, extending opposite from at least part of the lower floor 22; a cavity 26 communicating with the exhaust line 27 of the vehicle and at least partially delimited by the lower floor 22; and optionally, a hollow body 28 comprising a separate layer 30 and/or a layer of structural foam 35.

(11) The rear floor 16 further comprises mechanical reinforcements 31, and optionally a housing 33 for example for a repair kit or battery (not shown), delimited by the lower floor 22.

(12) The lower floor 22 comprises a lower face 32 and an upper face 34. The upper face 34 extends opposite the upper floor 24, and the lower face 32 faces the rolling surface of the vehicle. The lower face 32 defines an outer surface of the vehicle, exposed to the atmosphere.

(13) The upper floor 24 extends longitudinally over part of the lower floor 22. For example, the upper floor 24 faces 60% of the surface of the lower floor 22.

(14) The lower floor 22 and the upper floor 24 are assembled to one another by gluing and/or welding and/or any other mechanical fastening means.

(15) Alternatively, or in addition to the layer of glue, the lower and upper floors 22, 24 are rigidly fastened to one another by a plurality of fastening members 36, 38, 40, 42, such as self-tapping rivets, as shown in FIG. 2, and/or by a continuous or discontinuous weld line. The fastening members 36, 38, 40, 42 are regularly distributed along the rear floor 16. Only four fastening members 36, 38, 40, 42 are shown in FIG. 2, but alternatively, the rear floor 16 comprises other fastening members that are not shown.

(16) The cavity 26 is delimited by the lower floor 22 and the upper floor 24. More specifically, the cavity 26 is delimited by a peripheral wall 44, an upper wall 48 and a bottom wall 50. The peripheral wall 44 and the bottom wall 50 are formed in the lower floor 22. The upper wall 48 is formed in the upper floor 24. Advantageously, fastening members, for example two fastening members 40, 42, are distributed around the cavity 26 so as to rigidly keep the lower 22 and upper 24 floors attached near the cavity 26. A seal (not shown) is inserted between the lower 22 and upper 24 floors around the cavity 26 to create tightness.

(17) The cavity 26 comprises a single communication tube 52. In the example shown in the figures, the communication tube 52 extends substantially in the plane formed by the vertical and longitudinal directions. The tube 52 is attached to the cavity 26 and is glued or welded, for example, to the bottom wall 50 and the peripheral wall 44. Alternatively, the tube 52 is integral with the bottom of 50 and the peripheral wall 44. It connects the cavity 26 to the exhaust line 27 of the vehicle. The tube advantageously comprises an uncoupling element 53 visible in FIG. 1. The uncoupling element 53 makes it possible to attenuate vibrations and movements of the exhaust line 27.

(18) The hollow body 28 is delimited by the lower floor 22 and the upper floor 24. The hollow body 28 for example comprises a soundproofing layer 30. The soundproofing layer completely occupies the inner volume of the hollow body 28. Alternatively, the sound proofing layer 30 occupies only part of the inner volume of the hollow body 28.

(19) Alternatively, the hollow body 28 comprises a semi-structural or structural foam 35, such as a polyamide (PA) foam, a polyethylene terephthalate (PET) foam, an expanded polypropylene (EPP) foam, or a polymethacrylimide (PMI) foam.

(20) The mechanical reinforcements 31 extend along the lower and upper floors 22, 24. For example and as shown in FIG. 2, a first mechanical reinforcement 54 includes a first reinforcing plate 54 that extends along part of the lower floor 22 and that mates with the shape thereof. The first reinforcing plate 54 for example has an Ω shape. The first reinforcing plate 54 is for example glued or welded below the lower floor 22. Alternatively (not shown), the first mechanical reinforcement 54 is integrated into the lower floor 22 and is formed by an overthickness of the lower floor 22.

(21) As shown in FIG. 2, a second mechanical reinforcement 56 includes a second reinforcing plate 56 that extends along part of the upper floor 24 and that mats with the shape thereof. The second reinforcing plate 56 is for example glued or welded to the upper floor 24. Alternatively (not shown), the second mechanical reinforcement 56 is integrated into the lower floor 24 and is formed by an overthickness of the lower floor 22.

(22) The first and second mechanical reinforcements 54, 56 extend opposite one another, for example around parts of the lower 22 and upper 24 floors delimiting the hollow body 28. The first reinforcing plate 54 extends along the lower floor 22, and the second reinforcing plate 56 extends along the upper floor 24, opposite the first reinforcing plate 54. Only two mechanical reinforcements 31 are shown in FIG. 2, but alternatively, the rear floor 16 comprises other mechanical reinforcements that are not shown.

(23) A second embodiment will now be described, in reference to FIGS. 3 and 4. Only the points by which the second embodiment of the invention differs from the first will be outlined below. Identical elements, or elements performing the same function, will be designated using the same references in both embodiments.

(24) In the second embodiment, the cavity 26 is formed by the lower floor 22 and by a shell 58.

(25) The shell 58 is fastened on the lower face 32 of the lower floor 22. The shell 58 is in the form of a cup open toward the lower face 32 of the lower floor 22. The shell 58 includes a bottom partition 60, an upper partition 61 formed by the lower floor 22, and a side partition 64. The bottom partition 60 and the side partition 64 are formed by the shell 58. The bottom partition 60 extends substantially parallel to and away from the upper partition 61 formed by the lower floor 24. The shell 58 further comprises an outer collar 66 that radially extends the side partition 64 toward the outside of the shell 58. The outer collar 66 extends in a direction parallel to the bottom partition 60.

(26) The collar is rigidly fastened to the lower floor 22. It is fastened to the lower floor 22 by means of one or more removable mechanical fastening part(s) 74, for example by means of a screw-nut assembly 74 and optionally a seal 76, as shown in FIG. 3.

(27) In an alternative of the second embodiment (not shown), the cavity 26 is formed by the upper floor 24 and the shell 58.