DE102012023416A1 - Method for connecting mounting element with chassis of motor vehicle e.g. passenger car, involves connecting mounting element with chassis by bonding attachment element arranged in fixing recess with chassis - Google Patents

Abstract

The method involves detecting the geometry of a chassis (10) based on the predetermined variable. An attachment element is arranged in a corresponding fixing recess (16) of a mounting element (12). The mounting element is aligned together with the attachment element arranged in the corresponding fixing recess with respect to the chassis. A first positioning element is set in active connection with a second positioning element at the mounting element. The mounting element is connected with the chassis by bonding the attachment element with the chassis.

Description

The invention relates to a method for connecting an add-on element with a corresponding component of a motor vehicle according to the preamble of patent claim 1.

In series production of passenger cars, in particular, such methods for connecting an attachment element with a corresponding component of the passenger car are usually provided, in which the attachment is connected by means of at least one received in a corresponding mounting recess of the attachment fastener with the component. In this case, the fastening element is, for example, a bolt, which is attached to the body shell of the passenger car, in particular welded, is. To attach the attachment to the bodyshell, the Befestigungsausnehmung is threaded onto the bolt. This assembly process is difficult and therefore time consuming.

From the WO 2004/026673 A2 In addition, a method is already known which is provided for preparing the mounting of an attachment element to a body of a motor vehicle. For this purpose, the body and the attachment are glued together, screwed or otherwise connected, which assembly tolerances may arise.

The invention is therefore an object of the invention to provide a method of the type mentioned, which allows a simple and accurate installation of a mounting element on a corresponding component of a motor vehicle.

This object is achieved by a method having the features of patent claim 1. Advantageous embodiments with expedient and non-trivial developments of the invention are specified in the remaining claims.

In order to provide a method of the specified in the preamble of claim 1 species, which allows a particularly simple and accurate mounting of the attachment to the device, at least one of the geometry of the device characterizing measured variable is detected in the context of the inventive method. Furthermore, the component is provided with at least one positioning element at a position of the component. A position of the position on the component determined as a function of the detected measured variable. Furthermore, the fastening element is arranged in the corresponding mounting recess of the attachment element. The component is then aligned together with the fixing element arranged in the fastening element relative to the component, in which a second positioning element provided on the attachment element is brought into operative connection with the first positioning element. Finally, the attachment is connected to the device by the fastener is glued to the device.

In contrast to the prior art, it is thus provided in the method according to the invention not to first arrange the fastener on the component and then thread the fastener into the mounting recess. Instead, the fastening element is arranged in the corresponding fastening recess and thus on the attachment element. Subsequently, the attachment element and the fastening element arranged thereon are moved and aligned relative to the component, followed by the bonding of the attachment element to the component. The arrangement of the fastener in the mounting recess or arranging a plurality of fasteners in corresponding mounting recesses of the attachment can be much easier and faster than the attachment of the fasteners on the component and the subsequent threading of the attachment to the fasteners. This also makes it possible to mechanize the assembly of the attachment element on the component in a simple manner or to automate. At the same time, the add-on element can be positioned easily, quickly and with high precision using the positioning elements.

The method is particularly well suited to attach intrinsically stiff and dimensionally accurate attachments such as planking elements, hinges, etc. on the component, which is for example a shell part of a body of a motor vehicle in a well-defined position. As a result, the rigid or dimensionally accurate attachments can be aligned particularly accurately relative to each other, so that small gaps are feasible. In this case, a positioning accuracy of less than 1 mm can be achieved in a simple manner.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawings. 1a to 2 B serve to explain the background of the invention.

The drawings show in:

1a in each case in sections a schematic longitudinal sectional view through a component and a component to be mounted on the attachment of a motor vehicle, shown at a time before the attachment of the attachment to the component, wherein the attachment is fastened by means of fastened to the component bolt on the component;

1b in each case in sections a schematic sectional view through the component and the attachment, shown at a further time before the attachment of the attachment to the component;

2a in each case in sections a schematic sectional view through the component and the attachment, shown at a time prior to attachment of the attachment to the device, the bolt opposite 1a and 1b aligned in a different way;

2 B each detail a schematic sectional view through the component and the attachment according to 2a shown in a state in which the attachment is attached to the component;

3a in each case in sections a schematic sectional view through the component and the attachment, shown at a time prior to attachment of the attachment to the component, wherein the attachment is fastened by means arranged on the attachment element fastening elements on the component;

3b each detail a schematic sectional view through the component and the attachment according to 3b shown at a further time in time prior to attachment of the attachment to the device; and

3c each partially a schematic sectional view through the component and the attachment according to 3a and 3b shown in a state in which the attachment member is fixed to the component.

In the figures, identical or functionally identical elements are provided with the same reference numerals.

1a shows in a respective sectional view of a component in the form of a shell component 10 a body of a passenger car and an attachment in the form of a planking element 12 for the shell component 10 , The following to the shell component 10 , to the shell of the bodywork and to the planking element 12 Described can be easily transferred to other components and attachments such as engine and transmission parts, etc. In the present case, it is the planking element 12 around a side wall planking. The shell component 10 can be formed from a metallic material, in particular from a steel, or from a fiber-reinforced plastic (FRP).

The planking element 12 serves for at least partially covering the shell component 10 to the outside and may be formed of a metallic material, in particular of a steel, or of a fiber-reinforced plastic. 1a and 1b serve to illustrate a method for connecting the attachment element (planking element 12 ) with the component (shell component 10 ). To attach attachments to the shell and thus to the body, the shell of the body with fasteners in the form of bolts 14 Mistake. So also for connecting the planking element 12 with the shell part 10 , Here are the bolts 14 on the shell component 10 attached, for example, with the shell component 10 are welded. In this case, the bolts 14 commonly referred to as a welding stud. Bolts 14 may have an external thread and thus be formed as a threaded bolt. The final definition of the planking element 12 on the body then takes place by means of nuts, which respectively, with the external threads of the bolt 14 have corresponding internal thread through which the nuts on the bolts 14 be screwed on. Bolts 14 stand - like out 1a and 1b recognizable - usually at different angles of the shell component 10 from.

For fastening the planking element 12 on the shell component 10 are on the planking element 12 Mounting recesses present in the form of through holes 16 intended. Like from a synopsis of 1a With 1b recognizable, should the bolts 14 as part of the installation of the planking element 12 on the shell component 10 at least partially through the passage openings 16 be put through. This is the planking element 12 in an in 1a and 1b direction of joining indicated by a directional arrow relative to the shell component 10 and the shell component 10 fastened bolts 14 emotional. Because the bolts 14 however, are not aligned parallel to each other, the planking element 12 not collision-free on the bolts, or only at great expense 14 be threaded, since the through holes 16 not with respective bolt tips of the bolts 14 aligned. The assembly is also complicated by the fact that the through holes 16 are relatively small. This leads to a very time-consuming assembly, which can be automated only very complicated.

As in 1b In areas B is illustrated, there may be collisions of the bolts 14 with the planking element 12 come. Is the planking element 12 painted and / or otherwise surface-treated, in particular coated, so there is also the risk of scratches, spalling and / or other damage during threading, which can lead to corrosion damage during subsequent operation.

Based on 2a and 2 B is opposite 1a and 1b alternative method of joining the planking element 12 with the shell part 10 illustrated. How out 2a and 2 B recognizable, the bolts are 14 in parallel alignment with the shell or to the shell component 10 welded or on the shell component 10 attached. Bolts 14 thus all run at least substantially parallel to the joining direction. This alignment aligns the through holes 16 with the bolts 14 , and the planking element 12 can be compared 1a and 1b easier on the bolts 14 Thread on and on the shell component 10 Fasten.

However, the alignment and attachment of the bolts is parallel to each other 14 on the shell component 10 very elaborate, as the bolts 14 not only highly accurately aligned parallel to each other, but also must be arranged with high precision at defined distances from each other, otherwise there will be collisions. This means that also attachment areas of the bolts 14 on the shell component 10 elaborately designed and in particular must be aligned in parallel.

Alternatively or additionally, the planking element 12 strongly deformed and / or rotated, which is just as expensive. Furthermore, also remains with reference to 2a and 2 B illustrated methods the tedious and possibly manual alignment and Auffädelung the planking element 12 on the bolts 14 ,

Based on 3a C is now another method illustrates, by means of which a particularly easy to perform mounting of the planking element 12 on the shell component 10 and at the same time a particularly precise alignment of the planking element 12 relative to the shell component 10 let realize.

This method is based on the idea for fixing the planking element 12 on the shell component 10 as fastening elements adhesive bolts 18 to use that contrary to 1a to 2 B not in the course of the body shell on the body, but in the course of assembly or a final assembly of the planking element 12 on the shell component 10 together with the planking element 12 be arranged and fastened to the body.

After completion of the shell, the shell of the body is measured with high accuracy. As part of this survey, measured variables, so-called functional dimensions of the body, are recorded, which characterize the geometry of the body. Due to component inaccuracies or joint inaccuracies in the bodyshell, the values of the functional dimensions between individual bodies can vary.

After measuring, the shell component 10 with a positioning element in the form of a positioning pin 20 Mistake. As part of the process, only a single positioning bolt 20 be used. A maximum of two positioning bolts 20 used. The shell component 10 comes with the positioning bolt 20 at one point 19 of the shell component 10 whose position on the shell component 10 is determined as a function of the detected functional dimensions. In other words, the functional dimensions of the position of the positioning pin 20 on the shell component 10 determined.

The positioning bolt 20 is there for the positioning or alignment of the planking element 12 relative to the shell component 10 provided as the location of the planking element 12 relative to the shell component 10 on the positioning bolt 20 oriented. The positioning bolt 20 is thus fixed at the position determined by the functional dimensions of the carcass. The position of the positioning bolt 20 on the shell component 10 can also do so by means of an iterative alignment process like that from the WO 2004/026673 A2 is known to be determined.

The positioning bolt 20 can be a weld stud when the shell component 10 is formed for example of a steel. In this case, the positioning bolt 20 with the shell part 10 welded. The positioning bolt 20 may also be an adhesive bolt, which with the shell component 10 is glued. Here, the shell part 10 be formed of a steel or a fiber-reinforced plastic.

The planking element 12 is - like in particular 3a is recognizable - with mounting recesses in the form of through holes 16 for the adhesive bolts 18 as well as with a passage opening 17 for the positioning bolt 20 Mistake. Also the positioning pin 20 can be used as a fastener, so that it is also at the passage opening 17 around a mounting recess of the planking element 12 can act.

Respective inner diameter of the passage openings 16 . 17 are at each outer diameter of the adhesive bolt 18 or of the positioning pin 20 customized. This means that it is not provided from mounting view and / or to compensate for component inaccuracies and is not necessary, the passage openings 16 . 17 in terms of their inner diameter larger than the respective outer diameter of the adhesive bolt 18 and the positioning bolt 20 embody.

The passage openings 16 Now with the corresponding adhesive bolts 18 stocked. For this purpose, the adhesive bolts 18 in the corresponding passage openings 16 arranged and on the planking element 12 established. To set clips 22 used so the adhesive bolts 18 particularly simple and time-saving on the planking element 12 can be determined. The with the positioning bolt 20 corresponding passage opening 17 will be released.

Finally, the planking element 12 along with those in the passageways 16 arranged adhesive bolt 18 relative to the shell component 10 Spend the passage opening 17 in operative connection with the positioning bolt 20 aligned. This is the planking element 12 - like out 3b recognizable - in joining direction on the shell component 10 moved, and the positioning pin 20 is through the corresponding passage opening 17 through put. Due to the adaptation of the inner diameter of the through hole 17 to the outer diameter of the positioning bolt 20 , wherein the passage opening 17 with respect to the positioning bolt 20 can be formed as a pass hole is the planking element 12 together with the adhesive bolts 18 highly accurate relative to the shell component 10 aligned. In addition, if necessary, also a rotation of the planking element 12 together with the adhesive bolts 18 relative to the shell component 10 respectively. The passage opening 17 is thus used as a second positioning element.

Finally, the planking element 12 to the shell component 10 pressed. Here are the adhesive bolts 18 with the shell component 10 facing sides of the shell component 10 pressed on and glued on. For this purpose, respective, the shell component 10 facing sides of the adhesive bolts and / or respective, the adhesive bolt 18 facing sides of the shell component 10 be provided with a corresponding adhesive. The joining of the planking element 12 with the shell part 10 thus takes place by means of the planking element 12 pre-assembled adhesive bolt 18 ,

The adhesive may be PSA (Pressure Sensitive Adhesives). Furthermore, for example, when the shell component 10 and / or the planking element 12 is transparent, UV-curing adhesives are used. In addition, the use of two-component adhesives is conceivable, wherein the curing takes place after a certain time after mixing of the components. Alternatively or additionally, inductive or heat-curing adhesives may be used.

As a material for the shell component 10 and the planking element 12 are fiber-reinforced plastics, especially carbon fiber reinforced plastics (CFRP), metals and any other elastic and / or non-elastic materials used. Furthermore, it is possible that the planking element 12 a surface layer, in particular a coating, has. Due to the simple and collision-free installation, the risk of damaging the surface layer is particularly low.

The use of the adhesive bolts 18 to set the planking element 12 on the shell component 10 is advantageous insofar as the adhesive bolts 18 unlike welding bolts can be glued to any component surfaces. Furthermore, the adhesive bolts lead 18 to no damage, since the adhesive bolts 18 when attaching the planking element 12 on the shell component 10 already in the respective passage openings 16 are located. Threading, in which, if necessary, paint could be scraped off in the region of the passage opening, is eliminated. As a result, the risk of corrosion can be kept low.

Another advantage is that the connection of the adhesive bolts 18 with the planking element 12 can be reversibly solvable. So it is possible, if necessary, the clips 22 to solve and the planking element 12 to remove from the body.

The adhesive bolts 18 represent joining elements, which in assembly with the planking element 12 be attached to the body. That related to 1a to 2 B described Auffädeln as well as in connection with 2a and 2 B described, highly accurate alignment of the bolt 14 on the shell component 10 can be omitted. The adhesive bolts 18 are thus active tolerance compensating adhesive bolt, insensitive to inaccuracies of the shell and / or the planking element 12 are - and independent of these inaccuracies - a process-safe and automatable assembly possible.

The high-precision alignment of the planking element 12 relative to the shell component 10 according to 3a -C is determined by fixing the planking element 12 on the shell component 10 by means of adhesive and the adhesive bolt 18 not impaired. Such impairment may be related to 1a to 2 B Illustrated method occur because the nuts on the stud formed as a bolt 14 be screwed on. If the nuts are tightened, then Displacements of the planking element 12 relative to the shell component 10 occur, which lead to inaccuracies, for example, in gap dimensions. This can be done in the context of 3a -C illustrated method can be avoided because the through hole 17 in terms of their inner diameter on the outer diameter of the positioning pin 20 is tuned with high precision.

In addition, the use and attachment of the adhesive bolt takes place 18 compared to the bolts 14 not in the framework of the shell, but in the context of assembly, so that the diversity of variants and complexity can be reduced in the shell. In the assembly, only those of the adhesive bolts are type-specific 18 glued, the present for the concrete extension element in the form of the planking element 12 needed. Because the adhesive bolts 18 compared to the bolts 14 are not fixed relative to each other, the loading of the planking element 12 with the adhesive bolts 18 easily automated. This assembly can be carried out in the course of assembly in a so-called secondary line, so that the ready assembled planking element 12 delivered to a main line and there immediately with the shell part 10 can be glued. This relieves the main line.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2004/026673 A2 [0003, 0030]

Claims (7)

Method for connecting at least one add-on element ( 12 ) with a corresponding component ( 10 ) of a motor vehicle, in which the attachment element ( 12 ) by means of at least one in a corresponding mounting recess ( 16 ) of the attachment ( 12 ) received fastener ( 18 ) with the component ( 10 ), characterized by the steps: - detecting at least one of the geometry of the component ( 10 ) characterizing measurand; - providing the component ( 10 ) with at least one first positioning element ( 20 ) in one place ( 19 ) of the component ( 10 ), whose position on the component ( 10 ) is determined as a function of the detected measured variable; - arranging the fastener ( 18 ) in the corresponding mounting recess ( 16 ) of the add-on element ( 12 ); - Aligning the add-on element ( 12 ) together with in the mounting recess ( 16 ) arranged fastening element ( 18 ) relative to the component ( 10 ) while moving one on the add-on element ( 12 ), second positioning element ( 17 ) in operative connection with the first positioning element ( 20 ); - connecting the add-on element ( 12 ) with the component ( 10 ) by gluing the fastener ( 18 ) with the component ( 10 ). Method according to claim 1, characterized in that as the first positioning element ( 20 ) on the component ( 10 ) attached bolt ( 20 ) or the like rod element and as the second positioning element ( 17 ) a positioning recess ( 17 ) of the add-on element ( 12 ), the bolt ( 20 ) with the positioning recess ( 17 ) are brought into operative connection with each other by the bolt ( 20 ) at least partially in the positioning recess ( 17 ) is arranged. Method according to one of claims 1 or 2, characterized in that as the component ( 10 ) a shell component ( 10 ) is used a body of the motor vehicle. Method according to one of the preceding claims, characterized in that as the attachment element ( 12 ) a planking element ( 12 ) is used for a body of the motor vehicle. Method according to one of the preceding claims, characterized in that as the attachment element ( 12 ) a planar and / or inherently rigid attachment element ( 12 ) is used. Method according to one of the preceding claims, characterized in that the fastening recess ( 16 ) with respect to its inner periphery for at least partially receiving the fastener ( 18 ) to an outer periphery of the fastener ( 18 ) is adjusted. Method according to one of the preceding claims, characterized in that the position of the point ( 19 ) on the component ( 10 ) is determined by means of an iterative alignment process.

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