DE102005048243A1 - Profile element and uses of such a profile element - Google Patents

Abstract

The entire invention relates to a profile element with at least one belt element (2, 3) made of a metallic material, into which a fastening groove (13, 14) is formed, into which a web element (4) is placed, which is laterally connected to the fastening groove (13, 14) arranged edge area of the web element (4) pressed material of the belt element (2, 3) is positively and / or non-positively held in the fastening groove (13, 14), and uses of such a profile element. The profile element according to the invention creates further improved possibilities for adaptation to the requirements that arise in practice. This is achieved in that the belt element (2, 3) and / or the web element (4) have at least one defined, delimited section (7, 8, 9, 11) which differs in at least one property from the adjacent section adjoining it (7, 8, 9, 12) differs.

Description

The invention relates to a profile element with at least one belt element made of a metallic material and a web element. Such a profile element is for example from the EP 0 868 237 B1 known. In this document, a method is described, with which a first made of a metallic material flat part can be easily connected to a second flat part to form a profile. Thus, by the application of the from the EP 0 868 237 B1 Known methods add parts of any metals, for the other joining techniques, be it for reasons of material combination, be it for other reasons, not suitable or optimal. Likewise, the known method makes it possible to form profiles from a combination of metallic and non-metallic flat parts.

For this purpose, that looks from the EP 0 868 237 B1 Known method before to connect the at least two parts of the respective metal profile exclusively by forming material with each other. The material conversion in question means that the joining partners are firmly connected to each other by clamping forces and positively interlocking material of the joining partners.

The Production of the known metal profiles takes place in such a way that first in one of the to be joined Parts of a groove is formed. In this indentation finds a structural change in the nearer Surrounding the groove instead. Then in this groove another from flat material existing part with its narrow side inserted and in the groove through Crimping of the groove adjacent material in the one part clamped. A further structural change takes place, so that an exclusively force- and form-fitting Connection between the two parts to be connected to each other is made. This concludes of course not from that complementary to the positive and non-positive Connect a bond or another connection between the joining partners will be produced.

profile elements of the above-explained type For example, for the construction of houses, for interior design as well for the construction of furniture, Lighting equipment or similar items used. Likewise, such profile elements can be used as parts for vehicle bodies, in particular car vehicle bodies, use.

Independent of the particular use of these profile elements is therein, that it allows the joining technique used in their manufacture, from different Materials to combine existing parts together. This makes it possible Profile elements to create, for example, in terms of their Strength and stiffness, their deformation behavior, their weight, their optical appearance, their thermal conductivity, etc. optimally to the are adapted to their respective application.

In spite of these optimization possibilities arise in practice requirements in terms of weight on the one hand and, for example, the deformation behavior on the other hand, also with the above-described known profile elements not fulfilled can be. This is especially the case when these profile elements off metallic flat parts joined become.

outgoing from the above Prior art therefore had the object of the invention in a profile element with further improved possibilities of adaptation to create the requirements in each case in the practice.

These Task is inventively by a Profile element of the type specified, in which in the at least a belt member made of a metallic material has a fastening groove is formed, in which a web element is placed by the side at the arranged in the mounting groove edge region of the bar element be suppressed Material of the belt element positive and / or non-positive in the fastening groove is held, according to the invention, the web element and / or the belt element at least one defined delimited Section, which is in at least one property of the adjacent adjacent section is different.

In a profile element according to the invention, the web element and the belt element can be designed in the manner of a "tailored blanks". As a "tailored blank" usually a sheet metal part is called, which is composed of individual sheet metal parts with, for example, the same or different quality, thickness or surface finishing. Tailored blanks are reshapeable and tailored to specific customer requirements. For the production of tailored blanks, in addition to laser beam welding, the crimp seam method is often used, in which the parts to be joined are guided between two roller electrodes. Depending on the loads placed on the application, tailored blanks can have a distribution of material that, in the areas that are more heavily loaded in the application, has a greater material thickness or a particularly strong material while the other areas may be thinner or made of a lighter material.

By doing in a profile element according to the invention at least the web element or the belt element in sections is formed differently, each section of the profile element easily to those in practical use in the field of each Section occurring loads are optimally adapted. With The invention thus provides profiles with minimized weight while improving Usage characteristics available, where not only the respective materials, but also their Design and distribution adapted to the respective requirements could be.

According to one first advantageous embodiment of the invention differs in the web element and / or the belt element of a profile element according to the invention the at least one section in its thickness of the adjacent to him Section. The thicker sections can easily do so that they are more heavily loaded in practical use Regions of the profile element according to the invention lie. Likewise, it is possible in this embodiment of the invention, larger material thicknesses in form certain sections of the profile element to there, for example Connections, like thread, eyelets o. Ä., for more Form or fasten components.

alternative or in addition the at least one different from the other sections Section of a profile element according to the invention another strength, toughness and / or Have deformability to those occurring there in the installed state To absorb loads optimally.

The differing from each other in terms of their properties sections of the belt or the bridge can for example, by welding, in particular laser beam welding be connected to each other. Alternatively, it is also possible, the different sections having belt elements or web elements to produce by rolling.

Inventive profile elements can in Cross section, for example T-, double-T or Z-shaped be. It must the interconnected elements seen in cross-section not necessary orthogonal to each other, but also can aslant converge. Likewise, the mounting groove does not need to be have a straight course, but can, for example, too wavy or zigzag run.

following the invention will be described with reference to an exemplary embodiment Drawing closer explained. Each show schematically:

1 a section of a profile element in a side view;

2 the profile element in a frontal view;

3 an enlarged view of the section A of 2 ,

The profile element shown in the figures 1 is designed as a double-T-carrier and has an upper belt element 2 and a lower belt member 3 on. Between the belt elements 2 . 3 is a bridge element 4 , each perpendicular to the associated surfaces 5 . 6 the belt elements 2 . 3 is aligned.

The web element 4 is made of two edge sections consisting of a first steel material 7 . 8th as well as from a middle section 9 formed, each extending over the entire length of the belt elements 2 . 3 extend. The edge sections 7 . 8th have in side view the shape of a right triangle, while the middle section 9 has the shape of an elongated rectangle. Here is the one edge section 7 with its one longitudinal edge directly with the belt element 2 connected while the other edge section 8th with its other longitudinal edge to the other belt element 3 connected. With their respective other longitudinal edge are the edge sections 7 . 8th with their respective associated longitudinal edge of the central portion 9 welded. In this way, the belt elements run 2 . 3 starting from one at one end of the profile element 1 given low profile height in the direction of the other end of the profile element 1 apart until the largest profile height is reached.

When prefabrication are in the middle section 9 at regular intervals, first recordings 10 been formed, then in the sheet metal sections 11 have been used. The sheet metal sections 11 are then laser beam welding with the surrounding sections 12 of the middle section 9 welded. The sheet metal sections 11 have a greater thickness than the middle section 9 of the posture 4 in the sections surrounding it 12 and are positioned so that the middle section 9 and thus the entire web element 4 and accordingly also the entire profile element 1 in the area of the relevant sheet metal sections 11 has a strength and a deformation behavior that is optimally adapted to the loads occurring in practical use.

For the connections between the belt elements 2 . 3 and their respective associated edge portions 7 . 8th of the bridge section 4 is in the facing surfaces 5 . 6 the belt elements 2 . 3 already at the prefabrication in each case a mounting groove 13 . 14 have been formed, extending over the entire length of the tunnel element 4 extends. The width of the fastening grooves 13 . 14 In this case, the thickness D corresponded to the respective belt element 2 . 3 associated edge section 7 respectively. 8th of the posture 4 ,

As in 3 based on the edge section 8th shown in detail, is for tying the edge portion 7 . 8th to the respective belt element 2 . 3 then the relevant edge section 7 . 8th his the fastening groove 13 . 14 respectively assigned edge area 8a in the mounting groove 13 respectively. 14 been put. Then this is on both sides of the mounting groove 13 respectively. 14 existing material of the respective belt element 2 . 3 by means of a tool, not shown here in the from EP 0 868 237 B1 known manner against the in the mounting groove 13 respectively. 14 standing edge area 8a of the respective edge section 7 . 8th been pressed. The result of the material displacement on both sides of the fastening grooves 13 respectively. 14 resulting grooves 15 . 16 are in 3 presented for clarity in a non-realistic, oversized manner.

1

profile element

2

upper chord member

3

lower chord member

4

web element

5, 6

mutually associated surfaces of the belt elements 2 . 3

7, 8th

edge sections

8a

in the mounting groove 14 standing edge region of the respective edge section 8th

9

midsection

10

Recordings

11

sheet metal sections

12

the sheet metal sections 11 surrounding sections of the

midsection 12

13 14

fixing slots

15 16

grooves

D

Thickness of the respective belt element 2 . 3 associated edge section 7 respectively. 8th of the posture 4

Claims (4)

Profile element with at least one belt element ( 2 . 3 ) of a metallic material into which a fastening groove ( 13 . 14 ) is formed, in which a web element ( 4 ) is provided by the side of the in the mounting groove ( 13 . 14 ) arranged edge region of the bar element ( 4 ) pressed material of the belt element ( 2 . 3 ) positively and / or non-positively in the fastening groove ( 13 . 14 ), characterized in that the belt element ( 2 . 3 ) and / or the web element ( 4 ) at least one defined delimited section ( 7 . 8th . 9 . 11 ) in at least one property of the neighboring portion adjacent thereto (FIG. 7 . 8th . 9 . 12 ) is different. Profile element according to claim 1, characterized in that the at least one section ( 7 . 8th . 9 . 11 ) in its thickness from the section adjacent to it ( 7 . 8th . 9 . 12 ) is different. Profile element according to one of the preceding claims, characterized in that the at least one section ( 7 . 8th . 9 . 11 ) in its strength, toughness and / or deformability from the adjacent section ( 7 . 8th . 9 . 12 ) is different. Profile element according to one of the preceding claims, characterized in that the sections ( 7 . 8th . 9 . 11 . 12 ) are welded together.