The present invention relates to a device for internal high pressure forming.
A method and a device for the internal high pressure forming of a hollow profile closed at the periphery form the subject matter of a German Patent Application, still not published at the time of the present application, having the official reference 103 49 699.8 and dated Oct. 24, 2003. The known device has an internal high pressure forming tool with a sealing arrangement which contains an axial punch having a section plunging into the hollow profile for holding and sealing an end of the hollow profile, this end projecting from the impression of the forming tool. Furthermore, a unit for generating a high fluid pressure is provided for expanding the hollow profile by means of fluidic internal high pressure. Owing to the fact that an outside diameter of the axial punch on the plunging section is equal to or falls slightly below the inside diameter of the hollow profile end, and owing to the fact that the sealing arrangement contains at least one clamping jaw and a pressing element which, when the section of the axial punch has plunged in, presses radially on the hollow profile end, the clamping jaw fixes the hollow profile end in position. These measures prevent the hollow profile blank from being able to be pulled off the axial punch during the internal high pressure forming process and thus prevent its sealing effect from being reduced or even completely neutralized. Since the hollow profile blank, on account of the firm, axially immovable hold at the end, cannot be drawn into the impression during the forming, firstly the original overall length of the hollow profile blank is unaffected by the forming and secondly no material of the hollow profile end can subsequently flow from the end into the mold space. In the case of long forming sections, a largely uniform distribution of the wall thickness can be achieved at each point of the hollow profile blank.
European document EP 1 152 843 B1 discloses a device for the internal high pressure forming of a hollow profile, which device has a forming tool and a sealing arrangement for holding and sealing an end of the hollow profile, this end projecting from the impression of the forming tool. The sealing arrangement is formed by a section of an axial punch, this section plunging into the hollow profile, and by at least one clamping jaw which, when the section of the axial punch has plunged in, presses radially from outside on the hollow profile end in such a way that the clamping jaw fixes the latter in position. The clamping jaw is connected to an actuator which drives it for displacing it only radially to the hollow profile axis.
German document DE 197 51 407 C1 discloses a device for hydraulically sealing a hollow profile. The device has a die and a clamping and feed unit and also a plurality of sealing elements closing the hollow profile. In the region of the sealing location, the die consisting of two die halves has, on the inside, a respective rounded bulged section extending radially inward over the periphery, the clamping and feed unit being provided with an axially movable mandrel which can be pushed into the hollow profile by means of a push-pull element. This mandrel is positioned with respect to the die in such a way that the bulged sections of the die lie such that they correspond to a mandrel section of corresponding design. Since the distance from the tube end is therefore not limited, sealing at any desired location in the tool is possible.
German document DE 38 20 952 C2 discloses a device for hydraulically expanding metallic hollow profiles generally open at end faces. The open end faces in this case are closed by rigid sealing heads which surround the inner or outer surface of the hollow profile in a close-fitting manner but at a slight distance apart. A sealing gap in between is sealed off in an elastic sealing ring which is designed as a hollow body and to which internal pressure can be applied. In addition, the sealing ring is enclosed in the sealing head in such a way that, as a result of the internal pressure, it can expand only in the direction of the outer or inner surface of the hollow profile to be sealed and comes into tight contact with the latter. The result of the enclosing of the sealing ring is therefore that the elastic material cannot give way laterally. Since, furthermore, the hydraulic expansion pressure is also applied in the sealing gap, provision is made for the internal pressure in the sealing ring to always be kept so far above this expansion pressure that the contact pressure of the sealing ring on the surface of the hollow profile is always above the expansion pressure and thus reliable sealing is ensured.
German document DE 197 33 473 A1 discloses a method and a device for connecting a hollow-cylindrical air/fuel-ratio detector holder to an exhaust pipe provided with an opening for admitting exhaust gas to the air/fuel-ratio detector fastened in the holder. In this case, the method uses the internal high pressure technique for connecting the air/fuel-ratio detector holder.
By means of internal high pressure, the contour of the exhaust pipe is adapted in a simple manner to the bearing contour of the lateral surface of the holder at the location at which the future bearing surface of the holder is provided. The connection of the lateral surface of the holder to the exhaust pipe saves construction space. The holder, at this location, is virtually sunk into the exhaust pipe, but at least into the pipe wall.
The present invention deals with the problem of specifying an improved embodiment for a device for internal high pressure forming of the type mentioned at the beginning, which embodiment ensures in particular reliable holding and sealing of the semi-finished ends of the hollow profile and at the same time enables high-quality components formed by internal high pressure to be produced.
This problem is solved according to the invention, with advantageous embodiments forming the subject matter of the dependent claims.
According to the invention, in a device for the internal high pressure forming of a hollow profile, which device has a sealing arrangement for holding and sealing an end of the hollow profile, this end projecting from an impression of the forming tool, an actuator drives a clamping jaw for displacing it only radially to the hollow profile axis and thus presses the clamping jaw from outside onto the hollow profile end in such a way that the latter is fixed in position. In this way, improved sealing and holding of the hollow profile end can be achieved. Counteracting the pressure force in the process is a section of an axial punch, this section plunging into the hollow profile and being part of the sealing arrangement and supporting the hollow profile end from inside against the clamping jaw pressing from outside.
The actuator results in the hollow profile end already being clamped and thus held and sealed before the actual forming operation, so that the hollow profile blank can be moved into the forming tool when the latter is open and as a result any damage to a surface of the hollow profile blank can be avoided or at least reduced. At the same time, the hollow profile blank can be reliably held during the entire production process by being pressed against the axial punch by means of the clamping jaw acting radially from outside. As a result, this prevents a situation in which the hollow profile blank can be pulled off the axial punch during the internal high pressure forming process and thus its sealing effect is reduced or even neutralized.
Since the hollow profile blank cannot be drawn into the impression or cavity block, firstly the original overall length of the hollow profile blank remains unaffected by the forming and secondly no material of the hollow profile blank can subsequently flow from the end into the mold space, so that, in the case of long forming sections, a largely uniform distribution of the wall thickness prevails at each point of the hollow profile blank.
The largely uniform distribution of the wall thickness also ensures production of a component coil without any problems, from which, after forming has been effected, a plurality of individual components of identical configuration are produced in a subsequent parting process, these individual components having identical or at least similar functional properties on account of the uniform distribution of the wall thickness.
Since, due to the device according to the invention, the hollow profile end is not changed in its shape by expansion, and at least the inside diameter is also retained, subsequent end trimming may be dispensed with, which saves production time and reduces the costs for the entire production process.
According to the invention, at least one V-ring is arranged on a side of the clamping jaw facing the hollow profile end. Due to the interlocking thereby achieved, not only is the hollow profile end held more intensely between the clamping jaw and the axial punch, but the axial material flow within the hollow profile end is interrupted, which prevents creeping of the hollow profile at its end in the direction of the forming tool impression. The result of this is that lower pressure forces have to be applied in order to sufficiently counter the drawing-in which is caused during the internal high pressure forming.
According to a preferred configuration of the invention, the actuator comprises at least one hydraulic cylinder or is formed by at least one hydraulic cylinder. As a result, the clamping jaw can be pressed onto the hollow profile end hydraulically and thus in a powerful and precise manner. At the same time, hydraulic cylinders constitute a drive technology which has proved successful for many years and is thus reliable, so that the actuator can be realized in a cost-effective manner with regard to operation and maintenance.
According to an advantageous embodiment of the invention, the actuator enables the clamping jaw to be displaced when the forming tool is open. The forming tool may be formed, for example, from at least two die parts which are displaceable relative to one another and form the impression in the closed state. Due to the displaceability of the clamping jaw when the forming tool is open, it is possible to move the hollow profile blank into the forming tool without there being a risk of damage to the surface of the hollow profile blank in the process, since the two die parts lie well outside the path of movement of the hollow profile blank. Especially high quality requirements can be fulfilled by surface damage being avoided or reduced.
The die parts can expediently be displaced while the clamping jaw fixes the hollow profile end. This results in a method advantage, since the die parts must first be displaced onto the hollow profile blank directly before the internal high pressure forming and thus premature damage to the surface of the hollow profile blank caused by a bearing surface of the cavity block can be avoided. At the same time, this prevents the end of the hollow profile blank from being drawn in as a result of preprofiling for the case where the hollow profile blank, from the closing movement of the forming tool, is to be compressed and thus preprofiled.
Further important features and advantages of the invention are apparent from the claims, from the drawings, and from associated description of the drawing figures.
It goes without saying that the abovementioned features and the features still to be explained below can be used not only in the respectively specified combination but also in other combinations or on their own without departing from the scope of the present invention.
Preferred exemplary embodiments of the invention are shown in the drawings and are described in more detail below, the same designations designating identical or functionally identical or similar components.
According to
In general, according to FIGS. 1 to 4, in each case only one part of the device, for example a top part in
The axial punch 4 widens from its plunging section 6 to the rest of the punch body in a stepped manner while forming a shoulder (not designated in any more detail), by means of which the axial punch 4 strikes the hollow profile end 12 while assuming the position of use. The plunging section 6 of the axial punch 4 is in this case dimensioned in such a way that it comes to lie in the position of use (cf. FIGS. 2 to 4) on a certain extension length in the forming tool. Due to the mounting thus achieved, the axial punch 4 remains oriented in a centered manner, which helps to achieve a lasting sealing function.
Running in the axial punch 4 is at least one axial action-medium passage 7, which on the one hand is connected to a unit for generating high fluid pressure and on the other hand opens out at an end face 13 of the axial punch 4. An outside diameter of the axial punch 4 on the plunging section 6 is favorably dimensioned in such a way that it corresponds to the inside diameter of the hollow profile end 12 or falls slightly below the latter, so that the section 6 comes to lie in the hollow profile end 12 free of play, but without plastic expansion of the hollow profile end 12, or with slight play.
According to
According to the invention, an actuator 14 is provided for actuating the clamping jaw 3 (cf
In general, the device 2 has at least two die parts 15 adjustable relative to one another, for example a top die part 15′ and a bottom die part 15″, which can be displaced toward and away from one another independently of the clamping jaw 3. According to FIGS. 1 to 3, it is shown that the actuator 14 enables the clamping jaw 3 to be displaced when the forming tool is open.
In order to enable the clamping jaw 3 to be displaced independently of the die part 15, the clamping jaw 3, according to
However, it is also conceivable, according to
In principle, it is conceivable for the clamping jaws 3 to be carried along axially. This ensures controllable subsequent feeding of material during the forming process, as a result of which the quality of the hollow profile 5 produced can be increased. In the process, the clamping jaws 3 may either be carried along passively or via a, for example power-controlled, actuator (not shown), which permits a displacement of the clamping jaws 3 with respect to the die parts 15 axially relative to the hollow profile 5.
The method sequence during the clamping or internal high pressure forming process is to be explained briefly below:
At the start of the method, the hollow profile 5 is inserted into the bottom die 15″ of the forming tool, whereupon the section 6 of the axial punch 4, according to
After that, in a second method step according to
The embodiment of the V-ring 2 shown according to FIGS. 1 to 4 represents only one possible variant, clamping jaws 3 without V-rings 2 also being conceivable. In this case, the clamping jaw 3 is connected frictionally to the hollow profile end 12, with an interference fit being formed, and is thus sealed.
According to
According to
Number | Date | Country | Kind |
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103 58 493.5 | Dec 2003 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP04/13015 | 11/17/2004 | WO | 5/15/2007 |