METHOD FOR CHECKING THE TIGHTNESS OF A DOUBLE-WALLED MOTOR VEHICLE PANEL VIA ULTRASOUND SENSING

Abstract

The present disclosure relates to a method for checking the integrity of a glue joint which is to be checked and which connects one portion of a body box and a body skin, which define an inner volume therebetween. The method includes: arranging at least one ultrasound sensing device in the inner volume; emitting a pressurized directional air jet opposite a predetermined area of the glue joint; recording a noise level detected by the ultrasound sensing device in the inner volume; and determining an integrity defect in the glue joint according to the recorded noise level.

Claims

1. A method for checking the integrity of a glue joint comprising the following steps, carried out in this order: arranging at least one ultrasound sensing device in an inner volume defined between one portion of a body box and a body skin; emitting a pressurized directional air jet opposite a predetermined area of a glue joint connecting said portion of the body box and said body skin; recording a noise level detected by the at least one ultrasound sensing device in the inner volume; and determining an integrity defect in the glue joint according to the recorded noise level.

2. The method according to claim 1, further comprising comparing the recorded noise level with a reference noise level; and wherein the integrity defect in the glue joint is determined if the recorded noise level is different from the reference noise level.

3. The method according to claim 1, further comprising the following steps, carried out before the step of arranging at least one ultrasound sensing device in the inner volume to be checked: arranging the at least one ultrasound sensing device in a reference inner volume, defined by a reference body box portion and a reference body skin connected by a reference glue joint not including any tightness defect; emitting the pressurized directional air jet opposite a predetermined area of the reference glue joint; detecting a noise level in the reference inner volume; and recording the noise level thus detected as a reference noise level.

4. The method according to claim 3, wherein the predetermined area of the reference glue joint corresponds to the same predetermined area of the glue joint to be checked.

5. The method according to claim 1, wherein the emitting and recording steps are carried out for a plurality of predetermined areas of the glue joint.

6. The method according to claim 5, wherein the plurality of predetermined areas are uniformly distributed along the glue joint.

7. The method according to claim 5, wherein the plurality of predetermined areas are contiguous and a union of the plurality of predetermined areas includes the entire perimeter of the glue joint.

8. The method according to claim 1, wherein emitting the pressurized directional air jet takes place perpendicular to the glue joint.

9. The method according to claim 1, wherein the pressurized directional air jet is emitted in the immediate vicinity of the glue joint.

10. The method according to claim 1, wherein, if at least one of: the body skin and the one portion of the body box in question contain orifices, a preliminary step is carried out for isolation of the orifices with respect to an external environment.

11. The method according to claim 1, wherein the at least one ultrasound sensing device is able to detect sound waves whose frequency is between 5 kHz and 50 kHz.

12. A device for checking an integrity of a glue joint, comprising: at least one ultrasound sensor intended to be arranged in an inner volume defined between one portion of a body box and a body skin; an air-jet emitting device, wherein the air-jet emitting device is configured to emit a pressurized directional air jet opposite a predetermined area of a glue joint connecting said portion of the body box and said body skin; a recorder, wherein the recorder records a noise level detected by the at least one ultrasound sensor in the inner volume.

13. The device according to claim 12, further comprising: a comparison device, wherein the comparison device compares the recorded noise level with a reference noise level; and a first device for determining an integrity defect in the glue joint if the recorded noise level is different from the reference noise level.

14. The device according to claim 12, further comprising, the body skin or the one portion of the body box being provided with at least one through orifice, called the skin orifice or, respectively, box orifice, at least one vacuum cover intended to cover said at least one skin orifice or, respectively, said at least one box orifice, delimited by two opposite free surfaces, called an inner cover surface and an outer cover surface, the inner cover surface being provided with two cover seals with a closed contour, respectively called an inner cover seal and an outer cover seal, the contour of the inner cover seal being contained within that of the outer cover seal, the at least one vacuum cover being passed through by at least one suction port of the cover opening between the two cover seals of the side of the inner cover surface.

15. The device according to claim 14, further comprising an air suction device connected to the at least one suction port of the cover.

16. The method according to claim 1, wherein the air jet is emitted in the immediate vicinity of the glue joint at a distance of between 5 and 50 mm from the glue joint.

17. The device according to claim 14, wherein the at least one vacuum cover is passed through by at least one suction port of the cover opening between the two cover seals on the side of the outer cover surface.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0051] The various embodiments will be better understood on reading the description which follows, given solely by way of example and with reference to the appended drawings, in which:

[0052] FIG. 1 is a perspective view of a motor vehicle tailgate during assembly;

[0053] FIG. 2 is an exploded perspective view of the tailgate of FIG. 1;

[0054] FIG. 3 is a schematic view of a spoiler and an upper crosspiece connected by a glue joint and a device for checking the integrity of the glue joint according to the embodiment;

[0055] FIG. 4 is a schematic view of a device for emitting a jet of air from the checking device of FIG. 3 and a section of a spoiler and an upper crosspiece connected by a glue joint.

DETAILED DESCRIPTION

[0056] FIGS. 1 and 2 show a motor vehicle body panel 8 known per se from the prior art, which is in this case a motor vehicle tailgate panel.

[0057] The tailgate panel 8 comprises a box 10 that comprises an opening 12 of the box to accommodate a bezel (not shown in the figures) intended to be attached to the box 10 by gluing.

[0058] More specifically, the box 10 comprises a lower portion 14 located below the bezel opening 12, connected to an upper crosspiece 16 by two side uprights 18 of the bezel.

[0059] The box 10 is intended to be covered by one or more body skins to form the body panel. As can be seen in FIG. 2, the lower portion of the box 14 of the tailgate here is covered with a lower body skin 20 attached to the box 10 by gluing and the upper crosspiece 16 by another body skin, commonly called spoiler 22.

[0060] The lower body skin 20 and the spoiler 22 are respectively assembled on the lower box portion 14 and the upper crosspiece 16 by continuous beads 24 of glue arranged, again in a known manner, on continuous gluing tracks respectively located on the periphery of the lower box portion 20 and of the upper crosspiece. The beads of glue 24 here constitute a glue joint between the lower body skin 20 and the lower box portion 14 on the one hand, and the spoiler 22 on the upper crosspiece 16d, on the other hand. In this way, the box portion and the body skin define an inner volume V therebetween.

[0061] To check the integrity of the seal formed by the bead of glue 24, a device 26 for checking the integrity of a glue joint, shown schematically in FIG. 3, is used. In what follows, the glue joint 24 that is checked is the one placed between the spoiler 22 on the upper crosspiece 16. This glue joint 24 is shown schematically in FIG. 3. It will, however, be noted that all that follows is provided for and equally applies to the glue joint 24 connecting the lower box portion 14 and the lower body skin 20.

[0062] The checking device 26 comprises an ultrasound sensing device 28 arranged in the inner volume V. For example, it is a microphone 28 capable of sensing ultrasounds. In FIG. 3, only one microphone 28 is shown, but more can of course be placed in the inner volume V if necessary. The ultrasound sensing device is able to sense sound waves whose frequency is between 5 kHz and 50 kHz.

[0063] The checking device 26 also comprises a device 30 for emitting a pressurized directional air jet J. It is for example a nozzle connected to an air compression device or any other device allowing the emission of a pressurized directional air jet J. For reasons of clarity, only the nozzle 30 emitting an air jet has been shown in FIGS. 3 and 4.

[0064] The nozzle 30 is capable of emitting a pressurized directional air jet opposite a predetermined area of the glue joint 24. To do this, the nozzle 30 may be held in the hand by an operator, or by an articulated arm of a robot (not shown).

[0065] The checking device 26 also comprises a device 32 for recording a noise level detected by the ultrasound sensing device (microphone 28) in the inner volume.

[0066] The checking device 26 also comprises a device 34 for comparing the recorded noise level with a reference noise level and a device 36 for determining an integrity defect 38 in the glue joint 24 if the recorded noise level is different from the reference noise level. Here in the figures, the integrity defect 38 is a through orifice in the glue joint 24.

[0067] We will now describe the method for checking the integrity of a glue joint 24 to be checked using the checking device 26.

[0068] Initially, at least one ultrasound sensing device, here one or more microphones 28, is placed in the inner volume of an assembly formed by an upper crosspiece and a spoiler connected by a glue joint not comprising any tightness defect.

[0069] If the body skin and/or the body box portion in question contain orifices, a preliminary step is carried out for isolation of these orifices with respect to the external environment. This step is carried out either before or after arranging the microphones 28.

[0070] In the following, this defect-free glue joint will be called a “reference joint,” and the assembly whose glue joint is a reference glue joint will be called a “reference assembly.” The reference assembly is an assembly of parts identical to those to be tested, which may in particular come from the same production line. It is therefore here an assembly of a spoiler 22 on an upper crosspiece 16 whose glue joint does not present any defects.

[0071] It will also be noted that, insofar as the following steps are the same for a reference joint or a glue joint 24 that one wishes to test, reference is made to FIGS. 3 and 4, even though the glue joint 24 has a defect 38. Indeed, the only difference between the glue joint 24 to be checked and the reference joint here is the absence of a defect 38.

[0072] Once the sensing device 28 has been placed in the reference volume V of the reference assembly, a pressurized directional air jet J is emitted opposite a predetermined area of the reference glue joint.

[0073] In order to promote noise emissions in the inner volume V and thus to improve sensing thereof in the inner volume V, the air jet J is emitted perpendicular to the glue joint 24, as can be seen in FIG. 4.

[0074] In order to further improve noise sensing, the air jet J is emitted in the immediate vicinity of the glue joint 24, preferably at a distance of between 5 and 50 mm from the glue joint 24.

[0075] Then, the noise level is detected in the reference inner volume V using the microphone(s) 28, and the noise level thus recorded, called reference noise level, is recorded using the recording device 32.

[0076] The emission and recording steps described below are performed for a plurality of predetermined areas of the reference glue joint. FIG. 3 shows three predetermined areas A, B and C that are preferably contiguous, like in FIG. 3.

[0077] These predetermined areas are preferably evenly distributed along the glue joint 24. Additionally, preferably, the union of the predetermined areas includes substantially the entire perimeter of the reference glue joint. However, for reasons of clarity, only three of these areas A, B, C have been shown in FIG. 3.

[0078] In fact, given the complex shapes that the box and body skin assemblies may assume (here a spoiler and an upper crosspiece) once assembled and the reverberation effects thus created within the inner volume of the assembly, the noise levels sensed there, even in the absence of defects, differ significantly depending on the areas of the reference glue joint.

[0079] A reference noise value is therefore recorded for each of the predetermined areas. A sound map of the reference glue joint is thus obtained, that is to say, a set of pairs of associated values, namely a reference noise level associated with a predetermined area.

[0080] It will be noted that in a variant, the value of the reference noise level associated with a predetermined area of the reference glue joint may be the result of an average of noise levels recorded for the same predetermined area of several identical conforming parts.

[0081] In still other variants, the reference noise levels per predetermined area, in other words the sound mapping as defined above, may include more data, called reference data, linked to the noise level value per predetermined area read for one or more reference glue joints. It will thus be possible to record a minimum and/or a maximum of noise read by taking a reading of the noise level for a given length of time, taking averages of noise levels, calculating a standard deviation of the recorded noise levels, etc. These reference data will be compared two by two with data of the same nature related to the noise level recorded for the glue joint to be checked.

[0082] Once this mapping has been obtained, at least one ultrasound sensing device, here one or more microphones 28, is placed in the inner volume V of an assembly to be checked.

[0083] Then, a pressurized directional air jet J is emitted opposite a predetermined area of the glue joint 24. It will preferably be ensured that the emission conditions of the air jet J are the same as the emission conditions of the air jet J opposite the reference glue joint, in order to obtain a more reliable comparison of the recorded noise levels.

[0084] In addition, still preferably, the predetermined area of the reference glue joint corresponds to the same predetermined area of the glue joint 24 to be checked. The directional air jet J will therefore be emitted opposite the same predetermined areas, here represented by areas A, B, C in FIG. 3. For this purpose, the nozzle 30 may be made to travel along the glue joint 24 to be checked by an operator.

[0085] However, preferably, the nozzle 30 will be held by an articulated arm of a robot (not shown) which sweeps the glue joint 24 over so as to emit the directional air jet J opposite the predetermined areas. Preferably, the robot performs such sweeping so that the nozzle 30 is placed at a fixed distance from the glue joint 24 during the sweeping, in other words so that the directional air jet J is always emitted at the same distance from the glue joint 24 when sweeping. In a preferred embodiment, the sweeping performed by the robot will be around the entire perimeter of the glue joint 24.

[0086] The noise level sensed by the ultrasound sensing device 28 in the inner volume V is then recorded and the presence of an integrity defect in the glue joint is determined according to the recorded noise level.

[0087] To this end, preferably, the noise level thus recorded is compared with the reference noise level recorded for the same predetermined area. Thus, if, for example, the noise level recorded for area A of the reference glue joint has been recorded, a comparison is done with the noise level recorded for the same area A of the glue joint 24 to be checked.

[0088] If the noise level thus recorded is different from the reference noise level, it can be determined that there is an integrity defect 38 in the glue joint 24.

[0089] Returning to the example of FIG. 3, since areas A and C do not present any defect in the glue joint 24, noise levels will be found in these areas that are identical or very similar to the noise levels recorded for these respective areas A and C of the reference joint. Conversely, since area B includes a tightness defect 38, a different noise level will be noted for area B, in practice higher, than the noise level for area B of the reference glue joint.

[0090] By carrying out these successive steps for predetermined areas, the union of which includes substantially the entire perimeter of the glue joint 24, it is possible to determine where the possible integrity defects are located over its entire perimeter and to determine whether the glue joint 24 is compliant.

[0091] The various embodiments described herein are not limited to the embodiments described here, and other embodiments will become clearly apparent to a person skilled in the art.

[0092] It is in particular possible to use the method and the device for checking the integrity of a glue joint to check the tightness of other body panels resulting from the assembly of two panels by gluing.