DE102015223769A1 - Support device for a body part - Google Patents

Abstract

The invention relates to a supporting device (1) for a body part (2) of a motor vehicle (20), in particular for a body side part (2) of the motor vehicle (20), comprising at least one support element (3) which is formed at least from an absorbent material, wherein the support element (3) is insertable into the body part (2) at least in a form-fitting manner, and wherein the support element (3) serves for fastening the body part (2) to the motor vehicle (20).

Description

The invention relates to a support device for a body part of a motor vehicle and a body part for a motor vehicle with a support device.

In motor vehicles, such as cars, the vehicle body side panel assembly, such as a Seitenschwellerbeplankung, currently composed of several parts. In this case, an outer profile with a hollow chamber forms the side part of the Seitenschwellerbeplankung, wherein in the hollow chamber, a support part made of hard plastic for fixing the Seitenschwellerbeplankung is arranged on the motor vehicle. For fastening the Seitenschwellerbeplankung on the hard plastic support member to the motor vehicle serve fasteners, such as clips. The hard plastic support member also serves as a load transfer element, wherein in particular a force acting from above on the Seitenschwellerbeplankung force on the support member to other areas of Seitenschwellerbeplankung, in particular down, is transmitted to avoid damage or deformation of Seitenschwellerbeplankung by force on the Seitenschwellerbeplankung. In particular, in the door area of the passenger compartment of the motor vehicle, d. H. in the entry or exit area, is to be prevented by the load transfer on existing hard plastic support member that deforms the outer profile of the Seitenschwellerbeplankung on appearance on the Seitenschwellerbeplankung. Since the support member is made of hard plastic, the weight of the Seitenschwellerbeplankung with the hard plastic support member disposed thereon is greatly increased due to the density of the plastic material over almost the entire length of the body part extending support part. A disadvantage of the hard plastic existing support member is also that the formed of hard plastic support member has no positive acoustic effects, but rather passes the acting on the Seitenschwellerbeplankung acoustic vibrations on the Hartkunststoffstützteil without greater attenuation directly to the body of the vehicle.

It is an object of the invention to overcome the disadvantages known from the prior art at least partially. In particular, it is the object of the present invention to design a supporting device for a body part of a motor vehicle such that the weight reduction of the acoustic effects of the body part can be improved and also with suitable training, the support device may have a positive impact on the side crash behavior of the body part, the Support device can be provided in particular cost.

To solve this problem, a support device for a body part of a motor vehicle with the features of independent claim 1 is proposed. Advantageous developments of the support device for a body part of a motor vehicle are specified in the dependent claims. The object is further achieved by a body part for a motor vehicle having a support device with the features of independent claim 13.

Further features and details of the invention will become apparent from the dependent claims, the description and the drawings. In this case, features and details that are described in connection with the support device according to the invention apply, of course, in connection with the body part according to the invention for a motor vehicle and in each case vice versa, so that respect. The disclosure of the individual aspects of the invention is always reciprocal reference or can be ,

The supporting device according to the invention for a body part of a motor vehicle, in particular for a body side part of the motor vehicle, comprises at least one support element which is formed at least of an absorbent material, wherein the support element is at least positively inserted into the body part, and wherein the support member for fixing the body part the motor vehicle is used.

The support element formed at least from an absorbent material advantageously replaces the known support part made of hard plastic. In addition, formed by the at least positive insertion of the support member in the body part on the one hand, a connection between the body part and the support member and on the other hand, the support element can also be subsequently used in the body part. Due to the fact that the support element is connected to the body part at least in a form-fitting manner, it is also possible to use the support element for fastening the body part to the motor vehicle. As an absorbing material should be understood in particular a material that dampens noise, that has the acoustic effects, and / or absorbed in the side crash case of the motor vehicle energy. Correspondingly, a material having cavities is particularly suitable as the absorbent material, the cavities advantageously being filled with air. Around the cavities, the material may have a structure that supports the supporting function of the support element. Compared to a support made of hard plastic thus weight can be saved. In addition, it is desirable if the absorbent material at least to some degree of deformation is resiliently deformable, that is, upon the action of forces on the Seitenschwellerbeplankung on the support member, the support degrades the energy at least by deformation in order to recover energy preferably after its reduction back to its original shape. Of course, the support member may also be formed of a material combination of absorbent material with other materials, such as plastic or hard plastic, metal or a plastic metal alloy. In this case, the other materials, for example, due to their material properties and / or due to their architecture, ie due to their structure, have absorbing properties.

In a particularly preferred manner is suitable as absorbent material for the support member of the support device according to the invention foam. Foams are particularly suitable because of their cellular structure and low density, which can be compared to the known support weight saved. Almost all plastic base materials are suitable for foaming foams. In addition, foams have the property that they can be compressed under pressure, ie by applying energy, and thereby absorb energy by deformation or compression, and at least to a certain degree of deformation or compression after degradation or absorption of energy again find their way back to their original shape. As foams, closed-cell foams in which the walls between the individual cells, ie around the cavities, are completely closed, and open-cell foams in which the cell walls are not closed, can be used. Mixed cellular foams including both closed cell foam and open cell foam are also useful in the design of the support element. Also integral foams can be used to form the support element, in which the density decreases inwards. Foam is therefore also particularly suitable as absorbent material for forming the support element, since its workability and machinability are easily possible with low tooling costs, as a result of which overall the manufacturing costs for the support device can be reduced. In addition, foam is suitable as an absorbent material for the support element, since this is due to its internal structure almost free of stress. The preparation of the support element for the support device according to the invention can be done for example by means of foam extrusion, for example, polypropylene, polyethylene, polystyrene, polyethylene terephthalate or biopolymers in the extruder at high pressures with propellant gas, such as, for example, pentane or carbon dioxide, is added to form foam particles. The foam particles produced in the foam extrusion can be processed in a further manufacturing process to foam moldings. For this purpose, the foam particles produced in the foam extrusion process (EPS, EPP, EPE, EPET, EBioP), for example, blown into porous aluminum molds and sintered together by means of superheated steam. After the cooling and stabilizing phase, the moldings formed by means of the molds can be removed from the molds. The support element of the present invention is thus preferably designed as a molded body, in particular as a foam body (foam molding), which is at least form-fitting at least between two wall sections of the body part, in particular between two wall sections of the outer profile of the body part, used. A support element produced by means of the molding process, which is formed as a molded body or as a foam molding, can be made in a density range between about 12 kg per cubic meter to 300 kg per cubic meter with a very homogeneous density distribution over the entire foam molding or support element. It is also conceivable to produce the support element in the direct foaming process with chemical or physical blowing agents as an injection-molded part. In addition to the foam particles produced from the production in the foam extrusion process, particle foams produced in an autoclave can also be used to produce the foam molding.

Advantageously, the support member extends at least in sections over the length, ie the total length of the body part. In this case, in particular on the support element, an end face is formed with a surface oriented toward a side wall of the motor vehicle. If the body part is, for example, a side sill panel, the side sill panel usually extends between two vehicle body side wheel arches of the motor vehicle. Therefore, in order to achieve a support function through the support element over the entire length of the Seitenschwellerbeplankung, and the support member is advantageously dimensioned such that it extends advantageously with the Seitenschwellerbeplankung over its entire length. To reduce weight without sacrificing the support function of the support element, the support element preferably extends only in sections over the length of the body part. An at least partially configured over the length of the body part support member is also preferably to form a solid connection between the body part and the motor vehicle over the entire length of the body part, for example, overhangs of the body part, especially in the wheel arches, no additional attachment or Need support function by means of a designed in these areas support element. Over the front of the Supporting element, ie on the body or the frame of the motor vehicle, in particular a side wall of the motor vehicle, facing side of the support element, the support member with the at least form-fitting connected body part can be attached to the motor vehicle. For this purpose, a surface oriented toward the body, in particular here to the side wall, of the motor vehicle is preferably formed on the end face of the support element. The surface oriented toward the side wall of the motor vehicle can be designed to lie over the entire surface adjacent to the side wall of the motor vehicle. As a side wall of the motor vehicle is to be understood in particular the at least partially enclosed by the body part side wall of the motor vehicle, in particular the side wall in the sill area of the motor vehicle.

The fact that the body part is designed as an outer profile, it forms when enclosing the side wall of the motor vehicle, a cavity between the outer profile and the side wall of the motor vehicle. However, the cavity or a plurality of cavities can also be configured within the body part, for example by at least partially parallel to the side wall of the motor vehicle formed intermediate wall in the body part, which subdivides the body part at least in sections over its length in at least two longitudinally formed to the body part cavities or cavities. A cavity in the sense of the present invention may also be a cavity separate from other cavities in the longitudinal extent of the body part, wherein the cavities are then advantageously separated from each other by an intermediate wall configured perpendicular to the side wall of the body part, thus dividing the body part into a plurality of cavity segments. In each case, a support element can be used in the thus formed cavities or hollow chambers connected in series, wherein the support elements used in the individual cavities or hollow chambers then form a total of the supporting device according to the invention for the body part.

The support element which can be inserted into the cavity or into the cavities formed by at least one additional intermediate wall advantageously at least partially fills in each case the cavity in the longitudinal extent of the body part differently. This embodiment of the support element is based on the idea that in the longitudinal extent of the motor vehicle different forces acting on the body part, or that the body part in longitudinal extension must have different stabilities, wherein by different filling of the cavity, d. H. due to the different degree of filling of the cavity, the support element is adapted to the requirements of the body part at a certain portion of the body part. As a result, preferably the weight of the support element and the weight of the body part connected therewith at least in a form-fitting manner can be reduced. In addition, can be adjusted or changed on the different degree of filling of the cavity or cavities, the acoustics of the body part. Thus, for example, sections with a high degree of filling of the cavity by the support element, relative to the total volume of the cavity, serve to better isolate acoustically sensitive areas of the motor vehicle from noise by means of the support element formed from an absorbent material, for example from a foam Areas of the body part, which are less sensitive to noise, wherein in the less acoustically sensitive areas, the degree of filling of the cavity by the support element is lower. In addition, by the degree of filling of the cavity, for example, mechanically higher loaded areas of the body part can be adjusted by a higher degree of filling of the cavity with the support element to the higher mechanical load. It is particularly advantageous that the forces acting on the body part forces can be fully or partially absorbed by the support element. Since the body part is fastened to the motor vehicle via the support element, the forces acting on the body part are not transmitted or at least reduced to the motor vehicle. Preferably, a degree of filling of 5% to 99% is suitable, with which the support element fills the cavity of the body part, wherein the degree of filling relates to the total volume of the cavity. More preferably, a degree of filling of the support element in the cavity of the body part from 15% to 90% based on the total volume of the cavity is suitable. Particularly preferred is a degree of filling of 25% to 80% based on the total volume of the cavity. The total volume of the cavity is calculated from the volume of the cavity formed between the outer profile of the body part and the side wall or between the outer profile of the body part and the intermediate wall or from the volume of all cavities over the entire longitudinal extent of the body part. If, in the longitudinal extent of the body part, the cavity is filled with only 10% of the support element, for example in the front area of the body part, and the rear part of the cavity in the longitudinal extent of the body part is filled with 95% by the support element, a degree of filling can be achieved over the total volume of the cavity between 25% and 80%, depending on the length over which the regions of the cavity filled with the different degrees of filling extend along the longitudinal extent of the body part.

To both forces that act in the event of a side impact, ie in Seitencrashlastfall on the body part, as well as forces that z. B. when acting on the body part on the body part act, absorb on the support member and / or distribute on opposite wall portions of the body part, the support element is preferably at least partially adjacent to an upper wall portion and at least partially adjacent to a side wall portion of the body part in the body part at least form-fitting use. In order to advantageously save weight, the support element may rest, for example along the longitudinal extent of the body part intermittently on the upper wall portion or on the lateral wall portion of the body part. Likewise, in order to further reduce the weight, the support element can in each case be inserted into the body part intermittently and non-adjacent on both wall sections, namely on the upper and on the lateral wall section. Advantageously, each lie on the upper wall portions and the voltage applied to the lateral wall portions of the body parts of the support element along the longitudinal extent of the body part at the same height, for example, on the upper wall portion of the body part forces acting on the lying at the same height side wall portion to be able to transfer the body part. Since outside of the entry and exit openings of the passenger compartment, for example on the B-pillar corresponding portion of the body part, no force is expected by occurrence on the body part, advantageously in this section, the support element can be reduced such that this example only on the side wall portion of the body part rests to absorb forces in a side crash and at least partially absorb.

In order to support the connection of the support element used in the cavity of the body part with the body part, the insertable into the cavity support element is at least partially encompassed in the inserted state in the body part of the upper wall portion of the body part. In addition, the support element can be integrally connected to the body part. When wraparound the body part, d. H. when wraparound of the outer profile to the support member in particular the aligned to the side wall of the motor vehicle side end of the support element with the surface formed thereon at least partially surrounded by the upper wall portion of the body part. By embracing the body part around the support member, the support member when inserting into the body part by compressing at least slightly compressed be inserted into the body part, and is held by the embracing of the upper wall portion of the body part to the support member in the at least slightly compressed shape. Since the support element preferably made of a foam due to its material property endeavors to return to its original shape before compression existing, the support member in the cavity of the body part by the wrap-around clamping, d. H. frictionally held between the wraparound and the wall portions of the body part. The clamping encircling the body part around the support element, d. H. the frictional connection between the body part and the support member, can be further increased by the body part is slightly overstretched when inserting the support element and overstretched after insertion of the support element under recovery to assume the original shape, wherein the wrapping of the body part to the Front side of the support element presses with the surface formed thereon.

Advantageously, the body part, in which the support element is inserted, are fastened to the motor vehicle via the end face of the support element. For attachment advantageously serves at least one fastening means, which is preferably arranged on the end face of the support element. The fastening means is preferably used for fastening the support element to the body part on a side wall of the motor vehicle. The fastening means are preferably an adhesive which can be applied to the face of the end face of the support element, for example an adhesive, and / or an adhesive face which can be applied to the face, wherein the adhesive and / or the adhesive face provide the integral connection of the support element and the body part serves with the motor vehicle. The adhesive or the adhesive can be applied to the end face of the support element and / or on the side wall of the motor vehicle, about the support element, which is inserted in the body part, on the body or the frame, and in particular on the side wall of the To attach motor vehicle. An adhesive applied to the surface of the end face of the support element adhesive surface can preferably be realized by a double-sided adhesive tape, which is aligned with an adhesive surface to the support element and with the other adhesive surface to the side wall of the motor vehicle. As the adhesive, it is preferable to use a solvent-borne wet adhesive, preferably a dispersion adhesive, and more preferably a contact adhesive, wherein the contact adhesive may be both a solvent adhesive or a dispersion adhesive which is processed by the contact bonding method. In addition, plastisols used in the automotive industry - preferably based on PVC - as an adhesive for Assembly of the body part can be used with the motor vehicle.

The fastening means arranged for fastening the body part via the support element on the end face of the support element can also generally comprise a holding means or counter-holding means, for example in the form of a screw connection, which is provided with a counter-holding means or holding means, for example an internal thread or holding means, formed on the side wall of the motor vehicle a mother, interacts. In a particularly preferred manner, the fastening means is at least one clip, wherein a clip connection between the support element with the body part and the side wall of the motor vehicle can be realized via the clip. If the support element is preferably formed as a molded body in a molding process, either after the production of the molded part or of the molded body a receptacle for receiving the clip can be formed in the support element, or the clip can already in the molding process in the tool for the preparation of the molded body configured support element are inserted so that it is already connected during the molding process with the support element. Preferably, the clip connection can also be used in combination with the adhesive and / or the adhesive surface for fastening the body part to the side wall of the motor vehicle. Since at least the front side of the support element can be encompassed by the upper wall portion of the body part, between the encircling of the body part and the side wall of the motor vehicle by means of an adhesive agent and / or an adhesive surface a cohesive connection between the body part and the side wall of the motor vehicle, preferably in Supplement to the adhesive or clip connection between the support member and the side wall of the motor vehicle, be configured. Since the end face of the support element in different segments along the longitudinal extent of the body part can be designed differently strong, and it may not be necessary to provide a fastening means in each segment to fix the body part on the support member on the motor vehicle, not necessarily over the entire longitudinal extent of the body part, the support element are fastened with fastening means on the motor vehicle. For quick attachment of the body part to the motor vehicle is particularly preferred the clip connection, wherein preferably a plurality of clips along the longitudinal extension of the body part are arranged on the support member to connect the body part via the support member with the motor vehicle. As a counter-holding means for receiving the clips and the design of the clip connection are advantageously provided in the side wall of the motor vehicle receptacles, for example in the form of passages, holes or blind holes, which correspond to the positions of the arranged in the support element clips in the longitudinal extent of the body part in the side wall of the motor vehicle are designed to be able to record the clips positively and / or positively with their front section directed towards the vehicle. Should there be damage to the body part, the body part can be separated by loosening the clip connections of the motor vehicle over the clip connections, and be replaced for example by a new body part with arranged on the support member clips.

The object of the present invention is also achieved by a body part for a motor vehicle with a supporting device according to the invention.

Since the body part is designed with the support device according to the invention, wherein the support device comprises at least one support element, the body part is compared to the known from the prior art body part with a hard plastic support member substantially reduced in weight. In addition, the body part has acoustic and / or energy-absorbing effects with the support element made of an absorbent material, in particular a foam material.

In order to avoid repetitions with respect to further advantages of the body part according to the invention, reference is made to the description of the advantageous embodiment of the support device according to the invention and it is fully recourse to their description.

Further, measures improving the invention will become apparent from the following description of embodiments of the invention, which are shown schematically in the figures. All of the claims, the description or the drawings resulting features and / or advantages, including design details and spatial arrangements may be essential to the invention both in itself and in various combinations. It should be noted that the figures have only descriptive character and are not intended to limit the invention in any way. Show it:

1 a perspective view of a known from the prior art support member made of hard plastic that is inserted into a body side part of a motor vehicle,

2 the side wall of a motor vehicle, which in the sill area in the longitudinal extension of the X Motor vehicle is divided into different segments AA ', BB' and CC ', and

3a , b, c a sectional view of a supporting device according to the invention along the in 2 represented segments AA ', BB' and CC '.

In the different figures, the same parts are always provided with the same reference numerals, which is why they are usually described only once.

1 shows a known from the prior art support device 100 with a support part 30 made of hard plastic. The support part 30 is in a body part 2 used and is partially sections of a lower wall section 4 and an upper wall portion 5 of the body part 2 at. The body part 2 is as external profile 10 with the lower wall section 4 , the upper wall section 5 and an intermediate lateral wall section 7 designed, with the wall sections 4 . 5 and 7 the outer profile 10 of the body part 2 form. When connecting the body part 2 with a motor vehicle 20 , is between the wall sections 4 . 5 and 7 and, for example, a sidewall 6 of the motor vehicle 20 which at least partially from the wall sections 4 . 5 and 7 is enclosed, a cavity 8th formed in which the on the body part 2 fixed support part 30 is included. In the body part 2 this is a Seitenschwellerbeplankung 40 that over in the support part 30 designed clip connections to the motor vehicle 20 is fastened. As shown, the support member extends 30 at least in sections over the length X of the body part 2 , Only the front part of the body part 2 and the rear part of the body part 2 will not be through the support part 30 the known from the prior art support device 100 supported. Because the support part 30 Made of hard plastic and extends almost the entire length X of the body part 2 extends, is the known from the prior art support device 100 through the in the body part 2 used support part 30 Overall, very hard, the hard plastic support 30 has no positive influence on the acoustics and is also unsuitable to absorb forces, for example, in a side impact on the side wall section 7 on the body part 2 Act.

2 shows a motor vehicle 20 , the present on the side body 25 of the motor vehicle 20 is reduced. The lateral body 25 of the motor vehicle has two manholes 26 on, passing through a B-pillar 27 are separated from each other. In the lower area closes to the entry openings 26 a trained in the longitudinal direction X sill 70 at. The sill 70 includes a side wall lying to the viewer 6 , At the sill 70 designed side wall 6 can the body part 2 , in particular a Seitenschwellerbeplankung 40 , by means of which in the body part 2 used support part 30 or support element 3 be attached. Because different forces on the sill 70 can be expected in the 2 For example, it is assumed over the length X subregions or subsections by the broken lines AA ', BB' and CC ', wherein in each case the embodiment of the supporting device according to the invention 1 in these subsections in the following 3a . 3b . 3c in a sectional view along the lines AA ', BB' and CC 'is shown.

The 3a . 3b . 3c show a sectional view of the in the 2 illustrated side body 25 of the motor vehicle 20 in the area of the sill 70 along the line AA ', BB' and CC '. On the side wall 6 of the sill 70 closes the body part 2 on, in the present case as Seitenschwellerbeplankung 40 is designed. The outer profile 10 of the body part 2 comprising a lower wall portion 4 , a side wall section 7 and an upper wall portion 5 which the side wall 6 of the sill 70 enclose, enclose together with the sidewall 6 of the sill 70 a cavity 8th , being in the cavity 8th a support element 3 the support device according to the invention 1 is used. Above the body part 2 closes via a door joint seal 28 and a door cover 29 a door exterior 35 of the motor vehicle 20 at. The support element 3 the support device according to the invention 1 is formed of an absorbent material, and the support member 3 is at least form-fitting in the body part 2 used. As in particular in the 3c can be seen, is the support element 3 via a clip connection 60 on the motor vehicle 20 attached, with the clip connection 60 one in the support element 3 designed clip 61 and one in the bodywork part 20 in the sidewall 6 of the sill 70 designed as a blind hole and to the position of the clip 61 corresponding admission 62 includes. As the support element 3 at least positively in the body part 2 is inserted, with the support element 3 also the body part 2 on the motor vehicle 20 by means of the clip connection 60 attached. In the present case is the absorbent material of the support element 3 a foam comprising a support structure and cavities formed in the support structure. The configured of a foam material support element 3 is formed as a shaped body, namely preferably as a foam molding, which in the 3a and 3b on the wall sections 5 and 7 of the as external profile 10 designed body part 2 at least in sections. In the 3c that lies in the body part 2 used support element 3 also at least in sections with the front side 9 in the area of the clip connection 60 on the side wall 6 the sill 70 at. The Indian 3 Shaped body shown, the support element 3 can be formed in a molding process with processing of foam particles, such as EPS, EPP or EPE, to the molding or the foam molding. It can be in the 3c arranged on the molding clip 61 either in the molding process, namely with inserted into the tool for the production of the molding, or the clip 61 can subsequently in the support element after production of the molding or molding 3 be incorporated. As in the 3a to 3c can be seen, the support element 3 from the upper wall portion 5 of the body part 2 encompassed. The one on the body part 2 designed Umgriff 12 encloses it at least partially to the side wall 6 of the sill 70 or of the motor vehicle 20 aligned end face 9 of the support element 3 , Thereby, that the support element 3 at least made of a foam material, and the support element 3 due to the material properties of the foam is at least partially compressible, the at least positive connection of the body part 2 with the support element inserted therein 3 by the Umgriff 12 of the body part 2 supported, namely because the support element 3 at least under slight compression in the body part 2 can be used and after insertion into the body part 2 tries to get back to its original form. Therefore, the support member is supported 3 at least that in the area of the Umgriffs 12 decorated front side 9 frictionally against the body part 2 designed Umgriff 12 from. Because the body part 2 in the present embodiment, the front side 9 with the surface formed thereon 11 with the Umgriff 12 engages, is for attaching the body part 2 between the side wall 6 of the motor vehicle 20 and the sidewall 6 of the Umgriffs 12 directed surface an adhesive surface 13 designed in addition to the attachment of the body part 2 over the support element 3 for fastening the body part 2 on the motor vehicle 20 serves. As compared between the 3a to 3c can be seen fills the support element 3 between the body part 2 and the side wall 6 of the motor vehicle 20 formed cavity 8th in the longitudinal extension X of the body part 2 different. The degree of filling based on the total volume of the cavity 8th varies between approx. 20-25% filling level ( 3a ) to approx. 65% -70% filling level ( 3c ). It is assumed that, for example, in the rear of the motor vehicle 20 namely via the rear access opening 26 , People - for example, children - in the vehicle 20 get in and out and increasingly on the upper wall section 5 as a side sill paneling 40 designed body part 2 occur. As an occurrence, ie a force from above on the side Schwellerbeplankung 40 designed body part 2 in the front manhole 26 , in particular along the line AA 'can be excluded, the weight of the support element 3 be reduced by the degree of filling of the cavity 8th is reduced in this section. In addition, the support element 3 in the section AA 'as in 3a are still optimized to that on the side wall portion 7 adjacent portion of the support element is reduced, as in the case of a side impact on the body part 2 acting forces, for example via the A-pillar 37 of the motor vehicle 20 taken and over crash elements of the bodywork 25 or the vehicle frame can be dismantled. In this respect leads to a reduction in volume of the support element 3 in the section AA 'to a weight reduction. In contrast, in the area BB 'the total volume of the support element 3 , ie the degree of filling of the cavity 8th increased, in particular the support element 3 almost over the entire length of the lateral wall section 7 of the body part 2 on the body part 2 is applied. Compared to the design of the support element 3 , as in 3a can be shown on the enlarged contact surface of the support element 3 on the side wall section 7 of the body part 2 in a side crash case on the body part 2 acting force over the enlarged contact surface of the support element 3 be absorbed and absorbed. As in 3c shown is the body part 2 over the support element 3 , namely next to the clip connection 60 also via a between the support element 3 and the side wall 6 of the motor vehicle 20 configured adhesive connection 14 , additionally attached. At the adhesive connection 14 this is a double-sided adhesive tape with an adhesive surface to the surface 11 of the support element 3 is aligned, and with the other adhesive surface to the side wall 6 of the motor vehicle 20 is aligned.

LIST OF REFERENCE NUMBERS

1

support device

2

Body, body side panel, body part

3

support element

4

lower wall section

5

upper wall section

6

Sidewall too 7

7

lateral wall section

8th

cavity

9

front

10

External profile too 2 out 4 . 5 and 7

11

Surface too 9

12

Attack too 5

13

Adhesive surface between 12 and 6

14

Adhesive connection / adhesive surface between 3 above 11 to 6

15

fastener

20

motor vehicle

25

Body too 20

26

manhole

27

B-pillar too 25

28

Door joint seal

29

door cover

30

Support part made of hard plastic

35

Door outer part

37

A-pillar too 25

40

Side sill paneling as 2

60

clip connection

61

clip

62

admission

70

sill

100

Support device (according to the prior art)

X

Longitudinal extension body part 2

AA '

Subsection to 2

BB '

Subsection to 2

CC '

Subsection to 2

Claims (13)

Support device ( 1 ) for a body part ( 2 ) of a motor vehicle ( 20 ), in particular for a body side part ( 2 ) of the motor vehicle ( 20 ) comprising at least one support element ( 3 ), which is formed at least from an absorbent material, wherein the support element ( 3 ) at least positively in the body part ( 2 ), and wherein the support element ( 3 ) for fastening the body part ( 2 ) on the motor vehicle ( 20 ) serves. Support device ( 1 ) according to the preceding claim, characterized in that the absorbent material is at least foam. Support device ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 3 ) is designed as a shaped body, in particular as a foam molding, which is at least form-fitting at least between two wall sections (FIG. 4 . 5 . 7 ) of the body part ( 2 ) can be used. Support device ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 3 ) at least in sections over the length (X) of the body part ( 2 ), in particular on the support element ( 3 ) an end face ( 9 ) with one to a side wall ( 6 ) of the motor vehicle ( 20 ) oriented surface ( 11 ) is trained. Support device ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 3 ) into a cavity ( 8th ) of the body part ( 2 ) and / or into a cavity ( 8th ), between the body part ( 2 ) and the side wall ( 6 ) of the motor vehicle ( 20 ), is usable, wherein the support element ( 3 ) the cavity ( 8th ) at least partially, in particular the support element ( 3 ) the cavity ( 8th ) in the longitudinal extent (X) of the body part ( 2 ) fills differently. Support device ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 3 ) the cavity ( 8th ) of the body part ( 2 ) with a degree of filling of between 5% and 99% relative to the total volume of the cavity ( 8th ), in particular the support element ( 3 ) the cavity ( 8th ) of the body part ( 2 ) with a degree of filling between 20% and 90%, more particularly with a degree of filling between 30% and 80%, based on the total volume of the cavity ( 8th ) fills. Support device ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 3 ) at least partially adjacent to an upper wall portion ( 5 ) of the body part ( 2 ) and at least partially adjacent to a lateral wall section ( 7 ) of the body part ( 2 ) in the cavity ( 8th ) is used at least positively. Support device ( 1 ) according to one of the preceding claims, characterized in that in the cavity ( 8th ) usable support element ( 3 ) in the inserted state in the body part ( 2 ) at least in sections from an upper wall section ( 5 ) of the body part ( 2 ), in particular that to a side wall ( 6 ) of the motor vehicle ( 20 ) directed end face ( 9 ) of the support element ( 3 ) from the upper wall section ( 5 ) of the body part ( 2 ) is embraced. Support device ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 3 ) with the body part ( 2 ) over the front side ( 9 ) on the side wall ( 6 ) of the motor vehicle ( 20 ) is attachable. Support device ( 1 ) according to one of the preceding claims, characterized in that on to a side wall ( 6 ) of the motor vehicle ( 20 ) oriented end face ( 9 ) of the support element ( 3 ) at least one fastening means ( 15 ) can be arranged, wherein the fastening means ( 15 ) for fixing the support element ( 3 ) with the body part ( 2 ) on the motor vehicle ( 20 ) serves. Support device ( 1 ) according to claim 10, characterized in that the fastening means ( 15 ) on the surface ( 11 ) of the front side ( 9 ) of the support element ( 3 ) Applicable adhesive, in particular adhesive and / or one on this surface ( 11 ) attachable adhesive surface ( 14 ), wherein the adhesive for the cohesive connection of the support element ( 3 ) and the body part ( 2 ) with the motor vehicle ( 20 ) serves. Support device ( 1 ) according to claim 10 or 11, characterized in that the fastening means ( 15 ) at least one clip ( 61 ), whereby over the clip ( 61 ) with at least one on the side wall ( 6 ) of the motor vehicle ( 20 ) designed recording ( 62 ) a clip connection ( 60 ) between the support element ( 3 ) with the body part ( 20 ) and the side wall ( 6 ) of the motor vehicle ( 20 ) can be formed. Body part ( 2 ) for a motor vehicle ( 20 ) with a supporting device ( 1 ) according to any one of the preceding claims.

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