WO2007017150A1

WO2007017150A1 - Assembly support system

Info

Publication number: WO2007017150A1
Application number: PCT/EP2006/007534
Authority: WO
Inventors: Michael Spieth; Guido Opperbeck; Ondrej Zeman
Original assignee: Behr Gmbh & Co. Kg; Hbpo Gmbh
Priority date: 2005-08-06
Filing date: 2006-07-29
Publication date: 2007-02-15
Also published as: EP1910767A1; DE102005039091A1

Abstract

The invention relates to an assembly support system, especially a front end module, comprising an assembly support frame (51) containing at least one heat exchanger. The aim of the invention is to create an assembly support system for simplifying the assembly of the heat exchanger in the assembly support frame. To this end, at least one combination profiled element (70, 90) is arranged between the assembly support frame (51) and the heat exchanger (58-60), said profiled element comprising a positive locking region (68,69) by which means a complementary bearing region of the heat exchanger (58-60) is arranged in the assembly support frame (51).

Description

Assembly support system

The invention relates to a mounting support system, in particular a front end module, with a mounting support frame, in which at least one heat exchanger is held.

From the German patent application DE 103 55 123 A1 a heat transfer unit for a motor vehicle is known, comprising tubes, heat transfer ribs and at least one side part, which comprises a base plate and at least one reinforcing rib.

The object of the invention is to provide a mounting support system according to the preamble of claim 1, by which the assembly of the heat exchanger is simplified in the mounting bracket frame.

The object is in a mounting support system, in particular in a front end module, with a mounting support frame in which at least one heat exchanger is held, achieved in that between the mounting frame and the heat exchanger at least one combination profile element is arranged, which has a form-fitting region through which a complementary trained Storage area of the heat exchanger is mounted in the mounting support frame. The combination profile element is an endless semi-finished product which, for example, can be used in the extrusion process. drive or in the extrusion of plastic and / or metal can be produced. The combination profile element has over its length a constant cross-sectional profile. The easy-to-manufacture profile allows easy installation of the heat exchanger, takes tolerances and thermal expansions of the heat exchanger, decouples the heat exchanger vibration technology of a vehicle structure and seals the heat exchanger against another heat exchanger and / or to the outside. The mounting system preferably belongs to a motor vehicle. Preferably, the heat exchanger is pre-assembled in the mounting frame. The preassembled mounting bracket system is then mounted in an assembly line to a motor vehicle support structure of a motor vehicle.

A preferred exemplary embodiment of the assembly support system is characterized in that a plurality of heat exchangers are mounted in the mounting support frame with the aid of a combination profile element which is arranged at the top, bottom and / or side between the mounting support frame and the heat exchangers. As a result, the assembly of the heat exchanger in the mounting frame is considerably simplified.

A further preferred embodiment of the assembly support system is characterized in that the combination profile element per heat exchanger has a form-fitting region, by which a complementarily designed storage area of the associated heat exchanger is mounted in the mounting support frame. This allows a stable storage of several heat exchangers with only a single combination profile element, which can be arranged above, below or laterally between the heat exchangers and the mounting bracket frame. Preferably, in each case a combination profile element is arranged above and below between the mounting support frame and the heat exchangers. According to a further exemplary embodiment, a combination profile element is arranged laterally between the heat exchangers and the mounting support frame.

A further preferred embodiment of the assembly support system is characterized in that the form-fitting regions are formed and are arranged, that the combination profile element in each case has a spacer web between two heat exchangers. By the spacer bar each two adjacent heat exchanger in the vehicle longitudinal direction are kept at a defined distance from each other.

A further preferred embodiment of the assembly support system is characterized in that the combination profile element, viewed in cross-section, has at least one cavity. The cavity serves to increase the elasticity of the combination profile element.

A further preferred embodiment of the assembly support system is characterized in that the cavity is arranged on the side facing away from the heat exchanger side of the spacer web. Preferably, a cavity is arranged on the side facing away from the heat exchanger side of each spacer bar.

Another preferred embodiment of the assembly support system is characterized in that the combination profile element is formed of a resilient plastic material. The combination profile element is preferably formed from an elastomeric plastic material, in particular rubber.

A further preferred embodiment of the assembly support system is characterized in that a combination profile element is arranged at the top and / or bottom between the mounting frame and the heat exchanger. The terms above and below refer to the installed state of the mounting bracket system in a motor vehicle.

A further preferred embodiment of the assembly support system is characterized in that a combination profile element is arranged laterally between the mounting support frame and the heat exchanger. Side means in the installed state of the mounting bracket system in a motor vehicle horizontally transverse to the vehicle longitudinal direction. - A -

A further preferred embodiment of the assembly support system is characterized in that the combination profile element, viewed in cross-section, has a substantially rectangular recess which forms the positive connection region. A part of the heat exchanger is accommodated in the recess.

A further preferred embodiment of the assembly support system is characterized in that in the recess, an insert part of a different material is arranged, which has a substantially rectangular depression, which forms the positive connection region. Through the insert, the shape of the recess can be varied. By the insert but also the elasticity of the combination profile element can be selectively influenced.

A further preferred embodiment of the assembly support system is characterized in that at least one web extends from the insertion part, which extends into the combination profile element. The web serves to anchor the insert in the combination profile element.

A further preferred embodiment of the assembly support system is characterized in that the combination profile element, viewed in cross-section, has at least one slot which forms the form-fitting region. The slot serves to receive a web which is formed on the heat exchanger.

A further preferred embodiment of the assembly support system is characterized in that the combination profile element, viewed in cross section, is positively received in the mounting support frame. The mounting frame can be designed one or more parts.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, various embodiments are described in detail. In this case, those mentioned in the claims and in the description Characteristics each be individually essential to the invention or in any combination. Show it:

Figure 1 is a simplified representation of a mounting support system according to a first embodiment with a top arranged

Combination profile element;

Figure 2 is a similar view as in Figure 1 with a top and a bottom arranged combination profile element;

Figure 3 is a similar view as in Figure 1 with two laterally arranged combination profile elements;

FIG. 4 shows four different cross-sectional profiles of a combination profile element;

Figure 5 shows three further combination profile elements in cross section;

FIG. 6 shows a mounting support system according to a further exemplary embodiment with a combination profile element arranged on top in FIG

Longitudinal section and

Figure 7 shows a mounting support system according to another embodiment with a top and a bottom arranged combination profile element in longitudinal section.

1 shows a mounting support system 1 of a motor vehicle is shown in simplified form. The mounting bracket system 1 comprises two fastening elements 2, 3, which serve to mount the mounting bracket system 1 after the pre-assembly on a support structure (not shown) of a motor vehicle. The two fastening elements 2, 3 are mounted externally on a mounting support frame 4. Inside the mounting frame 4, a heat exchanger 6 is arranged. The heat exchanger 6 is mounted in the mounting support frame 4 by means of a combination profile element 10. The heat exchanger 6 has essentially the shape of a cuboid, with two long pages and two short pages. The two long sides are arranged above and below. The combination profile element 10 is clamped at the top between the upper edge region of the heat exchanger 6 and the mounting support frame 4.

FIGS. 2 and 3 show similar mounting support systems as in FIG. To designate the same parts, the same reference numerals are used. To avoid repetition, reference is made to the preceding description of FIG. In the following, only the differences between the individual exemplary embodiments will be discussed.

In the embodiment shown in Figure 2, a combination profile 12, 13 between the heat exchanger 6 and the mounting support frame 4 is clamped at the top and bottom respectively.

In the embodiment shown in Figure 3, a combination profile element 16, 17 is laterally clamped between the heat exchanger 6 and the mounting frame 4. The combination profiles 10, 12, 13, 16, 17 preferably each have a U-shaped cross-section.

4 shows a combination profile element 20 is shown in cross section, which is formed substantially U-shaped. The combination profile element 20 has, viewed in cross section, a rectangular recess 21. The rectangular recess 21 serves for the positive reception of an edge region of a heat exchanger.

In addition, in Figure 4, a combination profile element 23 is shown in cross-section, which, viewed in cross-section, has a rectangular recess 24 in which an insert 25 is disposed of a different material. The insert part 25 has a rectangular recess 26, which serves for the positive reception of an edge region of a heat exchanger.

In an embodiment shown right next to it goes from the insert 25, a web 28, which serves to insert part 25 in the Anchor combination profile element 23. In the case of the further exemplary embodiment shown to the right, two webs 31, 32 originate from the insert part 25, with which the insert part 25 is anchored in the combination profile 23. The combination profile element 23 is a two-component profile which, like the combination profile element 20, is preferably made of plastic by extrusion.

FIG. 5 shows the cross-sectional geometries of different edge regions of heat exchangers. The border areas are also called side panels. The side parts may be integrally connected to the heat exchanger. The side panels may also be separate parts. A side member 35 has a U-shaped cross section with a base, are angled from the two legs. When installed, the angled legs of the side part 35 are positively received in slots 37, 38 of a combination profile element 36.

A side member 40 has an L-shaped cross section with a long and a short arm. The short arm of the L-shaped cross section of the side part 40 is arranged in the installed state in a slot 41 of a combinational profile element 42. A side part 44 has an angled web 45, which is arranged in the installed state in a slot 49 of a combination profile element 48.

FIG. 6 shows a mounting support system 50 in longitudinal section. The mounting bracket system 50 includes a mounting bracket frame 51 which is formed in two parts. The mounting frame 51 includes a U-shaped mounting bracket 53 which is closed by a connecting bracket 54. The connecting bracket 54 has an L-shaped cross section with a short and a long arm. The short arm forms a connecting web 55, which connects the two free ends of the U-shaped mounting bracket 53 with each other. The long arm of the L-shaped cross-section of the connecting bracket 54 forms a rear wall 56 of the mounting bracket system 50. The rear wall 56 includes a fan cowl with a fan and optionally other devices, such as fan doors. In the mounting frame 51, three heat exchangers 58, 59, 60 are mounted. The heat exchangers 58 to 60 each have the shape of cuboids. The upper and lower edge regions of the heat exchanger 58 have substantially the shape of a rectangle. From the upper and the lower edge regions of the heat exchangers 59, 60 in each case a web 61 to 64 goes out. The web 64 at the lower edge region of the heat exchanger 59 is positively received in a slot 65 which is recessed in the connecting web 55. The web 62 at the lower edge region of the heat exchanger 60 is positively received in a slot 66 which is recessed parallel to the slot 65 in the connecting web 55.

The outgoing from the upper edge region of the heat exchanger 59 web 63 is positively received in a slot 68 which is recessed in a combination profile 70. The extending from the upper edge region of the heat exchanger 60 web 61 is positively received in a slot 69, which is also recessed in the combination profile 70, which is also referred to as combination profile element. The slots 68, 69 are not continuous, but longer than the webs 61, 63 formed.

The combination profile 70 has a castellated spacer element 71, which is partially disposed between the rear wall 56 and the web 61 of the heat exchanger 60. Furthermore, the combination profile 70 has a castellated spacer element 72, which is delimited by the slots 68 and 69. At the crenellated spacer element 72 are the webs 61, 63 of the heat exchanger 60, 59 at.

Furthermore, the combination profile 70 has a castellated spacer element 72 against which the spacer element 72 faces away from the web 63 of the heat exchanger 59. In the crenellated spacer element 73 is a T-shaped insert 74 is arranged, which is the same as the insert 25 with the web 28 in Figure 4. The insert 74 has, viewed in cross-section, a rectangular recess in which the upper edge region of the heat exchanger 58 is received positively. In the area of the crenellated spacer elements 71 to 73 has the combination profile 70 each have a cavity 75, 76, 77 on. The combination profile 70 is formed integrally with the crenellated spacer elements 71 to 73 made of an elastomeric plastic.

FIG. 7 shows a similar mounting support system as in FIG. To designate the same parts, the same reference numerals are used. To avoid repetition, reference is made to the preceding description of FIG. In the following, only the differences between the two embodiments will be discussed.

In the exemplary embodiment illustrated in FIG. 7, the connection carrier 54 has a differently configured connecting web 80. Between the connecting web 80 and the heat exchangers 58 to 60, a second combination profile 90 is arranged. The combination profile 90 is identical to the combination profile 70. The heat exchangers 58 to 60 are mounted between the two combination profiles 70, 90 in the mounting frame system 50. The storage of the heat exchangers 58 to 60 both above and below in each case a combination profile 70, 90 allows in addition to the compensation of tolerances and the compensation of thermal expansions of the heat exchanger an effective structure-borne sound and Rüttelentkopplung the heat exchanger relative to the vehicle support structure (not shown) ,

The assembly support system according to the invention enables the storage of preferably all-aluminum components of a cooling module in the front end frame, without additional retaining elements must be attached to the heat exchangers. The combination profile elements allow manufacturing tolerances and thermal expansions to be absorbed during operation. In addition, the combination profile elements allow sufficient stability of the cooling module receptacles to meet the mechanical requirements for vibration tests. As a result of the combination profile elements according to the invention, the heat exchangers, which are also referred to as heat exchangers, can be fastened in the mounting carrier frame such that no structure-borne noise is transmitted from the heat exchangers to the rigid vehicle supporting structure. In addition, the invento- proper combination profile elements a good seal of the cooling components against cooling air leakage. This ensures that the cooling air used for cooling flows only through the effective cooling network.

Claims

Patent claims

1. assembly support system, in particular front end module, with a mounting support frame (1; 51) in which at least one heat exchanger (6; 58-60) is held, characterized in that between the mounting support frame (1; 51) and the heat exchanger (6; 58 At least one combination profile element (10, 12, 13, 16, 17, 36, 42, 48, 70, 90) is arranged, which has a form-fit region

(21; 26; 37,38; 41; 49; 68,69) through which a complementarily formed storage area of the heat exchanger (6; 58-60) is mounted in the mounting support frame (1; 51).

2. Mounting support system according to claim 1, characterized in that a plurality of heat exchangers (58-60) by means of a combination profile element (70,90), the top, bottom and / or side between the mounting support frame (51) and the heat exchangers (58-60). is arranged, are mounted in the mounting support frame (51).

3. assembly support system according to claim 2, characterized in that the combination profile element (70,90) per heat exchanger (58-60) has a form-fitting region (68,69) through which a complementarily formed storage area (63,61) of the associated heat exchanger (59 , 60) is mounted in the mounting support frame (51).

4. assembly support system according to claim 3, characterized in that the positive-locking areas are formed and arranged, the combination profile element (70) in each case has a spacer web (71-73) between two heat exchangers.

5. Mounting support system according to one of claims 2 to 4, characterized in that the combination profile element (70), viewed in cross section, at least one cavity (75,76,77).

6. Mounting support system according to claim 5, characterized in that the cavity (75-77) on the heat exchanger (58-60) side facing away from the Distanzstegs (71-73) is arranged.

7. assembly support system according to any one of the preceding claims, characterized in that the combination profile element (10; 12,13; 16,17; 36,42, 48; 70,90) is formed from an elastic plastic material.

8. Mounting support system according to one of the preceding claims, characterized in that above and / or below between the mounting frame (1; 51) and the heat exchanger (6; 58-60) a combination profile element (10; 12,13; 70,90) arranged is.

9. assembly support system according to any one of the preceding claims, characterized in that laterally between the mounting support frame (4) and the heat exchanger (6) a Kombinationsprofilele- element (16,17) is arranged.

10. assembly support system according to any one of the preceding claims, characterized in that the combination profile element (10; 12,13; 16,17; 36,42, 48; 70,90), viewed in cross section, a substantially rectangular recess (21; 26 ), which forms the positive connection region.

11. Mounting support system according to claim 10, characterized in that in the recess (24) has an insert part (25) from another Ma Material is arranged, which has a substantially rectangular recess (26) which forms the positive connection region.

12. assembly support system according to claim 11, characterized in that from the insert part (25) at least one web (28; 31, 32) extends, which extends into the combination profile element.

13. Mounting support system according to one of claims 1 to 9, characterized in that the combination profile element (36; 42; 48; 70), viewed in cross-section, at least one slot

(37, 38, 41, 49, 68, 69), which forms the positive-engagement region.

14. Mounting support system according to one of the preceding claims, characterized in that the combination profile element (70,90), viewed in cross-section, is positively received in the mounting support frame (51).