FR2933014A1 - TUBE REALIZED FROM A FLAN - Google Patents

Abstract

The tube (100) has fixation tabs (5, 6) realized in the form of excrescence projected from a folded rim (3) in one of two opposite edges (2) of the tube, where the tube is opened on its entire length and made of plastically deformable blank such as steel blank. The zone is folded towards a wall of the tube. The opposite edges are extended parallel to a longitudinal axis of the tube, where shapes of the edges are changed according to the resistance to be obtained. An independent claim is also included for a method for fabricating a tube.

Description

The invention relates to a tube made of a plastically deformable material, such as metal, in the form of a blank or a strip. Tubes of this type are already known, which have the characteristic characteristic that the longitudinal edges facing the tube are joined by a welding bead to give the tube rigidity and resistance against mechanical stresses. These tubes have the disadvantage that the welding operation after the formation of the tube is a relatively delicate additional operation and thus makes more expensive the manufacturing process of such tubes. The invention aims to overcome this disadvantage.

To achieve this object, the invention is characterized in that the tube is open over its entire length and in that at least one of the two facing edges has at least one folded area towards the wall of the tube. According to a further feature of the invention, the two edges are folded. According to yet another characteristic, the fold is made either inwardly or outwardly of the section of the tube. According to another advantageous feature of the invention, the section of the tube is uniform throughout its length. According to yet another advantageous feature of the invention, the tube comprises at least one fastening lug or other member, which is embodied as an outgrowth of the folded area of a tube edge. will be better understood, and other objects, details and advantages thereof clearly in the description The invention features, will appear more explanatory which will follow the schematic drawings and which is given with reference given only by way of example illustrating an embodiment of the invention and in which: - Figure 1 is a perspective view of an open tube with folded edges facing according to the invention; - Figure 2 is a view illustrating a cross section of the tube according to Figure 1, the edges being folded inwardly; - Figure 3 is a view similar to Figure 2 of the tube according to the invention, the edges being folded outwardly; - Figure 4 is a perspective view of a tube according to the invention provided with fixing lugs; - Figure 5 is a top view schematically illustrating an automatic forming press by stamping tubes according to the invention; FIG. 6 is a schematic view illustrating various stages of the stamp forming process under the automatic press according to FIG. 5; FIG. 7 is a perspective view of a tube provided with fixing lugs, according to an alternative embodiment of the invention; FIG. 8 is a top view, by extract, of a strip of a plastically deformable material with cutouts for producing tubes according to FIG. 7; FIG. 9 is a diagrammatic view illustrating various steps of the stamp forming process of a tube according to FIGS. 4 and 7; FIG. 10 is a perspective view of a dashboard crossmember incorporating a tube according to the invention; and FIG. 11 is a diagram representing the mechanical strength of a tube according to the invention compared to the resistance of a conventional tube. As can be seen in FIG. 1, a tube 1 according to the invention has the particularity that it is made from a blank made of a plastically deformable material, in particular a blank of sheet steel, by stamping or by profiling and that the edges 2 opposite the tube, which extend substantially longitudinally, therefore at least approximately parallel to a longitudinal axis of the tube, are formed by folding an area of material towards the body of the tube, or towards the interior, as shown in Figures 1 and 2, or outwardly, in accordance with Figure 3, thus forming flanges 3. Thus, the tube although open over its entire length, still has good rigidity and strength against any type of mechanical stress due to the flanges 3. The shape of the edges with their flanges 3 changes depending on the resistance to be achieved. The edges may have different shapes and the flanges 3 are not necessarily flat and glued against the main section of the tube. As shown in Figure 4, according to a first embodiment of a tube according to the invention, the flanges 3 of a tube 100 may be extended by protrusions shaped fastening lugs 5 and 6, obtained by folding to the outside of the section of the tube, at the free outer edge 7 of a flange 3.

As also clearly seen in Figure 4, the rim of the tube 200 may be in the form of a continuous strip which extends the full length or only a portion thereof. The rim could also be discontinuous along the length of the tube. The tube may still have several areas struck, punched or cut in various places. Both ends of the tube may be straight or have different shapes. Thanks to the possibility of forming on a tube according to the invention different legs, if necessary with screws or nuts mounted on these tabs, for example the tab 6, the tubes according to the invention are particularly well suited for use in the automotive field and can be used very advantageously for the production of dashboard crosspieces, door stiffeners, shock impactors, shock absorbers, beams, crossbars front and rear bumpers and the like . Both ends of the tube may be straight, as shown in the drawings, or have an evolutionary shape. The following will now be described, with reference now to FIGS. 5 and 6, the steps (a) to (f) of a method of manufacturing a tube according to the invention, by stamping based on the use of a automatic press. This process is only given as an example. The tubes according to the invention can also be made by profiling based on the use of rollers.

In general, a tube according to the invention is made by stamping from a blank, for example a steel sheet. In the context of the process and the press according to FIGS. 5 and 6, the pieces or blanks of sheet metal are cut from a steel strip which is unwound from a not shown reel and brought to the automatic press whose FIG. schematically shows the structure by a view from above. This press which carries the general reference 10 comprises a number of sectors of workstations each of which performs a specific function and each blank or piece of sheet metal passes through successively. During their passage through the press, the blanks cut from the original and successively converted into a tube, in particular a cylindrical tube, hang up to each other in order to be able to ensure a precisely controlled transport, step by step, of a tool sector to the other and within each sector from one workstation to another. For this purpose, the strip of steel, for example 12 noted comprises along its longitudinal edges transport control points 13 regularly distributed, each between two blanks and then tubes being formed. It can be seen that even after cutting a blank, it remains connected to the preceding blank and to the next blank by a material bridge 14 at a control point 13. As can be seen in FIG. press 10 comprises, in the direction of travel of the band 12 indicated by an arrow F, firstly a cutting sector 15 blanks in the band, which, in the example shown, comprises two cutting stations. In the first cutting station 16, the press makes two rectilinear cuts perpendicular to the X axis of the strip, each starting from the place which will subsequently constitute a front end of the tube, of a predetermined length in the direction of the axis, the part between these two cuts remaining intact. The next cutting station 18 cuts the remaining portions of the blank contour, except for the bridges 14, as indicated by the cutting lines of the front ends 19 parallel to the direction of travel of the web and the cutting line 20 of the area between the two cuts 17 made at the first station. The cutting sector 15 succeeds a vacuum station 22 in which the blank noted now 23, is completely cut, of course with the exception of the bridges 14 of attachment.

The press then comprises, in the example shown, a bending post sector 26, which comprises two bending stations 27, 28 and a crushing bending station 29. At the first bending station is performed the first phase of the production of the bending stations. flanges 3 to be folded along the front ends 24 and rear 25 of a blank 23, that is to say perpendicular to the direction of advance of the strip 12. The flanges 3 are folded in this position at an angle a little over 90 °. At the second bending station the bends are bent to an angle of about 145 ° and at the third bending crimping station 29, the flanges 3 are fully bent and pressed against the upper surface of the blank 23. The bending section 25 follows. the rolling sector 32. In this sector, which comprises three rolling stations 33, 34, the blank 23 with the folded edges 3 is transformed into a cylindrical tube as shown in FIG. rolling extends perpendicularly to the axis of the steel strip and that the cutting line to form the longitudinal edges of the tube is also perpendicular to the axis of the strip, on the one hand, and that the operation of rolling is done after the cutting operation of the blank from which the tube is made, the invention makes it possible to give the edges facing the tube any desired shape. Thus, the invention makes it possible to provide on the tube fastening lugs of other members, such as lugs 5 and 6, which are made in the stamping press. Thus, fastening lugs do not need to be attached to the tube, after its manufacture, during an additional operation, for example by welding. FIG. 7 represents a tube 200 according to a second variation of embodiment of the invention. The tube 200 is made, like the tube 100, from a blank made of a plastically deformable material, especially a sheet steel blank, by stamping or profiling and with fixing lugs 5, 6. The tube 200 differs from the tube 100 in that it comprises a flange 3A from which are formed fastening lugs 5, 6 and a flange 3B with notches or cuts corresponding to the material necessary to form the fastening lugs 5, 6. Figure 8 shows schematically how this variant embodiment is reflected on the cutting blanks in a steel strip. Two successive blanks 201, 202 are cut with an edge 2A having protrusions giving the fixing lugs 5, 6 and with an edge 2B having cutouts 51, 61 corresponding to the material of the legs 5, 6. It is therefore clearly visible that the second embodiment allows to cut, to the tube dimensions and equal tabs, from a given steel roll, many more tubes 200 than 100 tubes.

FIG. 9 represents the steps (a) to (g) of the production of a tube 100 or 200 according to the invention. As schematically shown in FIG. 9, it is sufficient to configure the fastening tabs 5, 6 in a suitable manner relative to the fold 3, before the bending operation to have the shape of the fastening lugs 5 or 6 according to FIG. FIG. 7. The invention also makes it possible to provide, on the tube, a piece, lugs at the front ends by a suitable cut of the blank and the shaping of these lugs before the rolling operation of the blank to obtain the open tube. according to the invention. FIG. 10 illustrates, by way of example, the application of the invention for producing a dashboard cross member of a vehicle. In this figure, it is found that the crossbar comprises two tubes according to the invention, namely a tube 1 without mounting tabs and a tube 200 with mounting tabs mounting in the vehicle environment. Figure 11 shows for different tube configurations, the relationship between the stiffness of the tube under the effect of contact force, as a function of time. On the ordinate of this figure is reported the contact energy EC while the axis 6 is the axis of the flow of time t. The rigidity calculations that allowed the tubes to be made were made using RADIOSS naming software. FIG. 11 shows four curves: in A the curve of a tube according to the invention whose rim is folded on the outside of the tube, in B the curve of a tube according to the invention with the fold inwards in C the curve of a tube obtained from a blank but closed by a weld bead and in D the curve of an open tube without a flange.

It follows from the curves of FIG. 11 that the tubes according to the invention, namely the curves A and B, have a better rigidity than the tubes according to the state of the art represented by the curves C and D.

Of course, for the comparative study that resulted in FIG. 11, the thicknesses, material and section diameter of the tubes were identical and the same force is applied to the center of the tube via an impactor with the same speed. The embedding of the ends during the application are also identical.

Claims (13)

REVENDICATIONS1. Tube made from a plastically deformable material, such as metal, in the form of a blank or a strip, characterized in that the tube (1) is open over its entire length and at least one of the two edges (2) opposite has at least one zone (3) folded towards the wall of the tube. 2. Tube according to claim 1, characterized in that the two edges (2) are folded. 3. Tube according to claim 1 or 2, characterized in that the fold (3) is made either inwardly 15 or outside the section of the tube. 4. Tube according to any one of claims 1 to 3, characterized in that the section of the tube is uniform over its entire length. 5. Tube according to any one of claims 1 to 3, characterized in that the tube (1) comprises at least one bracket (5, 6) other members, which is in the form of a protrusion of the folded area (3) of a tube edge. 6. Tube according to claim 5, characterized in that the edge (2) facing the edge (2) provided with the fixing lug (5, 6) has a recess of complementary shape, the fastening tab being derived from cutting the recess. 7. Tube according to one of claims 1 to 6 characterized in that it comprises fastening tabs at at least one end end. 8. A method of manufacturing a tube according to one of claims 1 to 7, characterized in that it is obtained from a blank with at least two edges are parallel, by operations first of all. bending (at 26) for making folds (3) and then rolling (at 32) to give the tube its cylindrical shape. 9. The method of claim 8, characterized in that the blank is obtained by cutting a strip of material, while remaining attached to the strip by bridge-shaped zones (14), the method comprising the operations of cutting the blank, with the exception of the bridges, along the cutting lines perpendicular to the axis of the strip, the connection points (14) being arranged at the longitudinal edges of the strip. 10. The method of claim 9, characterized in that the strip comprises, along its longitudinal edges piloting points (13) of the movement of advancement of the strip from one workstation to another. 11. Method according to one of claims 8 to 10, characterized in that the fastening tabs are formed during the cutting of a blank, a bracket (5, 6) to an edge (2) of the tube being obtained by cutting in the other edge (2) of the tube. 12. Method according to one of claims 9 to 10, characterized in that it comprises, following the aforementioned cutting operation, a bending operation (in 26) cut edges of the blank, for the realization of the folds ( 3) and a rolling operation (at 32), for producing the cylindrical shape of the tube. 13. Method according to one of claims 8 to 11, characterized in that the fixing lugs (5, 6) are made before the rolling operation.