NL1013906C2 - Forcing machine, method of forcing a product and exhaust system or pulley comprising such a product. - Google Patents

Description

Forcing machine, method of forcing a product and exhaust system or pulley comprising such a product.

The invention relates to a forming machine provided with a rotatably drivable clamping device for clamping a workpiece, such as for instance a material plate, which clamping device comprises a first mold tool and a pressing tool for pressing the workpiece in the direction of the first molding tool.

Such a forming machine is known, for example, from EP-A-0 125 720. In such forming machines 10, the workpiece is deformed by clamping it between the forming tool and a pressing tool or tailstock and then moving a forming roller according to the shape of the matching tool matching path. Thus, for example, a cylindrical, oval cylindrical or conical body with a flat bottom is obtained. For more complex shapes, where the wall is deformed in two or more opposite directions, such as parts for exhaust systems or pulleys for use in the automotive industry, but also for example ashtrays, it is necessary that the workpiece is removed and in a second forming machine is clamped. In this second forming machine, a deformation is then carried out in a second, substantially opposite direction.

Each subsequent deformation in a different direction requires the workpiece to be detached and placed in a subsequent forming machine. These operations take a long time and, moreover, will often result in inaccuracies in repeated clamping, which can result in products whose sizing variations are outside the required or desired tolerances.

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The object of the invention is to provide a forming machine of the type mentioned in the preamble, in which these drawbacks are eliminated, or at least considerably reduced.

To this end, the forming machine according to the invention is characterized by a second molding tool which is mounted substantially coaxially around the tailstock, which second molding tool can be moved along the pressing tool or the tailstock.

After clamping a workpiece, this second molding tool is located on the side of this workpiece remote from the first molding tool. By, after a first deformation of the workpiece on the first molding tool, the second molding tool is pressed against the workpiece and the axial position of this second molding tool is fixed relative to the tailstock, the workpiece can then be used with the aid of a forming roller be deformed in the direction of the second forming tool. The workpiece does not have to be removed, whereby the time-consuming release and re-exertion is eliminated and none. In addition, no shifts can occur.

If the shape of the workpiece requires the direction of deformation to be reversed i times (i = 1,2,3, ...) additional i tools can be provided. For example, a third molding tool can be mounted coaxially about the first molding tool, which third molding tool can be moved along the first molding tool.

An effective way to ensure that the additional molding tools cannot rotate but can translate with respect to the molding tool or tailstock to which they are attached is, for example, by using keyways. Keyways are easy to manufacture, allow for translational movement and 1 01 39 06 3 ensure effective transfer of forces and torques between the attached parts.

In principle, the forming machine according to the invention can be equipped with a single, preferably symmetrical, forming roller which can be moved to the other side of the workpiece with each subsequent forming step.

The invention further relates to a method of forcing a product, in which a workpiece, such as for instance a material plate, is clamped between a first molding tool and a pressing tool or tailstock and is deformed on the first rotary molding tool by a forming roller to be moved along a path corresponding to the shape of the first forming tool. The method is characterized in that a second molding tool is then placed against the workpiece on the side remote from the first molding tool and the workpiece is deformed on the second rotary molding tool by moving a forming roller along a path corresponding to the shape of the second molding tool . The invention is explained in more detail below with reference to drawings, in which embodiments of the forming machine according to the invention are shown.

Figure 1 is a schematic top view of a forming machine according to the invention.

Figure 2 is a partly shown schematic cross-section of the clamping device in the forming machine according to Figure 1.

Figures 3A through 3F schematically show six steps of a method according to the invention.

Figure 1 schematically shows a top view of a forming machine 1 according to the invention, in which a rotatably drivable clamping device 2 is arranged. The clamping device 2 comprises a first molding tool or bobbin 3 and a pressing tool or tailstock 4, which are coaxially and rotatably suspended. The bobbin 3 can be driven using an electric motor (not shown).

A workpiece, for example a disc-shaped metal plate as shown in figures 2 to 3F, can be clamped in a known manner between the first forming tool or bobbin 3 and the tailstock 4. Such a metal sheet has, for example, a thickness between 1 and 12 mm, preferably between 1 and 3 mm, and a diameter between 200 and 700 mm and can be deformed into a desired product by means of a forcing roller 5, which is rotatably mounted in a holder 6.

The holder 6 is carried in a known manner by a movable Y or top slide 7, which is mounted on a movable X or bottom slide 8. The bottom slide 8 is fixed in a translatable manner on the machine bed 9 of the forming machine 1. The slides 7 , 8 and their respective actuators are housed in a housing. Since these parts are not essential for the present invention, reference is made here for further explanation to the Dutch patent application 1000851 of the applicant and to the European patent application 0 125 720.

The forming machine further comprises a control section 10, which comprises a control unit, an input element, which is for instance designed as a keyboard, a screen and a memory. For forcing the metal sheet onto the bobbin 3 in the production phase, the shape of the bobbin 3 is recorded in the memory of the control section. The path to be followed by the forming roller 5 is then determined in the usual manner and taking into account the thickness of the metal sheet, for instance as described in the applicant's Dutch patent application 1001675.

Figure 2 shows the clamping device 2 of the forming machine 1 in more detail. The first reel 3 has a round cross-section, the diameter of which varies in the axial direction. The end 11 of the bobbin 3 has the smallest diameter 35 ter, which then gradually increases in axial direction, so that a frustoconic shape is created. The diameter of the first bobbin 3 then increases suddenly and remains constant along the rest of the bobbin 3.

Opposite to the first bobbin 3 is the loose head 4, which comprises a cylindrical front bearing shaft 12 and a conical pressure disc 13. The diameter at the end of the pressure disc 13 is equal to the diameter at the end 11 of the first bobbin 3. The front bearing shaft 12 is mounted in a first group of bearings 14 and a second group of bearings 15, 10, the second group of bearings 15 is fixed about a hollow cylindrical part 16, which hollow cylindrical part 16 is fixed around the front bearing shaft 12 by means of splines (not shown). The hollow cylindrical part 16 further comprises a flange 17 to which a second bobbin 18 is attached. By connecting the second bobbin 18 to the front bearing shaft 12 in this way, it is not necessary to provide an additional alloy for this second bobbin.

After a workpiece, in this case a disc-shaped metal plate 19, is clamped between the first bobbin 3 and the tailstock 4 and is machined during a first process step so that it follows the shape of the end 11 of the first bobbin 3, the second bobbin 18 is placed against the deformed disc-shaped metal plate 19. To this end, the second bobbin 18 is at least partially complementary to the shape of the first bobbin 3, so that the second bobbin 18 can receive the end 11 of the first bobbin 3 and the deformed disc-shaped metal plate 19 and contribute to the clamping force acting on the metal sheet 19 is applied.

A third bobbin 20 is secured around the first bobbin 3, again, for example, by means of keyways. The third bobbin 20 is partially complementary to the shape of the second bobbin 18, so that this third bobbin 20 can receive and clamp a portion of the second bobbin 18 and the deformed disc-shaped metal plate 19 against the second bobbin 18.

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Figures 3A to 3F schematically show a method for forcing a product, in this case again a disc-shaped metal plate 21, in six steps. The clamping device shown broadly corresponds to the clamping device as shown in figure 2.

Before deformation starts, the disc-shaped metal plate 21 is clamped between the conical end 22 of a first bobbin 23 and the end 24 of a tailstock 25. The present forming machine is provided with a holder 26 on which a first forming roller 27 and a second forming roller 28 are rotatably mounted. The holder 26 is symmetrical and the forming rollers 27, 28 are mirror-mounted relative to the plane of symmetry of the holder 26. It is of course also possible to use a single forming roller or, for example, a tool changer equipped with, for example, 2 to 5 forming rollers. After clamping, the first spool 23 is driven, usually to a speed between 500 (for large diameter plates) and 2400 (for small diameter plates), and the tailstock 25 is driven through workpiece 21.

The first forming roller 27 is placed at the point of contact of the end 24 of the tailstock 25 against the workpiece and moved along a path corresponding to the shape of the first bobbin 23. After the workpiece 21 has assumed the shape of the end 22 of the spool 23, the first forming roller 27 is removed from the workpiece 21 and the holder 26 is moved to the other side or rear of the workpiece 21.

Then, a second bobbin 29 is placed against the workpiece 21 and the second forming roller 28 is brought into contact with the other side of the workpiece 21. Thereafter, the forming roller 28 is moved along a path corresponding to the second bobbin 29 and the second forming roller 28, after finishing the second deformation step, the workpiece 21 is moved away from the workpiece 21 and the holder 26 is again transferred to the other side of the workpiece 21.

A third bobbin 30 is brought into contact with the rear of the workpiece 21, while the first forcing roller 27 is brought into contact with the front of the workpiece 21. Then, the first forcing roller 27 is moved in accordance with the shape of the third reel 30 corresponding job. After this, the workpiece 21 can be released from the clamping device by moving the second and third spools 29, 10 and the tailstock 25 away from the workpiece 21.

With the forming machine and method of the present invention, a workpiece can be forced in two substantially opposite directions without having to detach the workpiece. As a result, production times can be reduced and the inaccuracies that can occur when re-clamping the workpiece are avoided.

It should be noted that the cross-section of the bobbins does not necessarily have to be round. For example, it is possible that the first bobbin has a round cross-section, while the second bobbin has an oval outer circumference. The third bobbin may then, for example, have an oval inner circumference corresponding to the outer circumference of the second bobbin, while the outer circumference of the third bobbin is round again.

The forming machine and the method according to the invention are, for example, very suitable for manufacturing trays for use in exhaust systems for, for example, trucks.

The invention is not limited to the exemplary embodiments described above, which can be varied in a number of ways within the scope of the claims. The clamping device can thus also be placed vertically (rotatable about a vertical axis). Such an arrangement facilitates horizontal transport and positioning in subsequent work steps of the workpieces, which entails important advantages, especially in mass production.

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Claims (9)

1. Forming machine provided with a rotatably driven clamping device for clamping a workpiece, such as for instance a material plate, and at least one forming roller, the clamping device a first forming tool and a pressing tool for pressing the workpiece in the direction of the first molding tool, characterized by a second molding tool mounted coaxially about the pressing tool, the second molding tool being movable along the pressing tool. A forming machine according to claim 1, wherein a third molding tool is mounted coaxially about the first molding tool and is movable along the first molding tool. A forming machine according to claims 1 or 2, wherein the second molding tool is mounted on the pressing tool and / or the third molding tool on the first molding tool movably by means of keyways. A forming machine according to any one of claims 1-3, 20, wherein the second and / or the third molding tool is at least partially complementary to the shape of the first and / or the second molding tool, respectively, supplemented by the wall thickness of the workpiece on site. A forming machine according to any one of the preceding claims, which machine comprises two or more forming rollers. The forming machine according to claim 5, wherein the forming rollers are mirror-mounted on the same holder. 7. Method of forcing a product, in which a workpiece, such as, for example, a material plate, is clamped between a first molding tool and a pressing tool and is deformed on the first rotary molding tool by moving a forming roller according to the shape of the first molding tool corresponding to the path, characterized in that a second molding tool is then placed against the workpiece on the side remote from the first molding tool and the workpiece is deformed on the second rotary molding tool by move in a path corresponding to the shape of the second forming tool. 8. A method according to claim 7, wherein, after deforming the workpiece on the second molding tool, a third molding tool is placed against the workpiece on the side remote from the second molding tool and the workpiece is deformed on the third rotary molding tool by move in a path corresponding to the shape of the second forming tool. 9. Exhaust system or pulley comprising a hollow product with a certain wall thickness obtained by the method according to claim 7 or 8. 1 01 39 06