EP1772207A1 - Tool and method for manufacturing metal sheet elements provided with cavities - Google Patents

Abstract

A tool for the internal high-pressure forming (IHU) process for making a sheet metal part with a cavity from a double sinker with at least one swage to take a double sinker with two plates (P1, P2), comprising a part with a docking die for injecting a pressure medium (PM) between P1 and P2 and a part with a female mould to accept the die, in which the docking die (4) is a cutting die. Independent claims are included for (1) a method for the production of metal parts as above by forming opening(s) for PM in P1, sealing the edges of the cavity to be formed, injecting PM through the opening(s) into the space between P1 and P2 by means of the cutting docking die and pressurising the PM to form the required cavity (2) double-layer sheet metal parts obtained by this method using the tool described above .

Description

The invention relates to a tool for the Innenhochdruckum form (IHU) method for producing a cavity having a sheet metal part of a double board with at least one die for receiving a double board consisting of a first and a second board, wherein the tool at least a first and second Part is constructed, a first part of the tool has at least one docking punch for introducing a pressure medium between the first and the second board and a second part of the tool has at least one die for receiving the Andockstempels. Moreover, the invention relates to a method for producing a cavity-comprising sheet metal part from a double plate using hydroforming (hydroforming): - Method in which at least one opening for the printing medium is introduced into a first circuit board surrounding the edges to be formed cavity the double-board are sealed against the printing medium, the printing medium is introduced into the space between the first and the second board using a docking punch through the opening of the first board and generates a cavity corresponding to the shape of the die of the tool between both boards by pressurizing the printing medium as well as sheet metal parts with a cavity consisting of double boards.

The production of voided sheet metal parts from double boards using the hydroforming process has been known for some time. The sheet metal parts produced are frequently used in the automotive industry as structural parts. Double boards made of a metallic material consisting of a first and second superimposed board are placed in the known methods in an IHU tool and the space between the two boards with pressure applied via an introduced pressure medium, so that this to the desired shape of the cavity, accordingly the shape of the die of the tool, expands. So far, it has been problematic to introduce an opening into the first circuit board in order to introduce the pressure medium into the intermediate space between the first and the second circuit board.

From the German Offenlegungsschrift DE 197 19 426 a method is known in which the opening in the first board in the tool using a lance, which is to pierce the first board occurs. When using the lance, however, there is a risk of damaging the second board as well. In the cited document is therefore proposed to avoid the problem of using pre-punched boards.

From the German patent DE 44 27 140 C1 is the use of pre-punched boards for the production of voided sheet metal parts made of double boards known. The hole of the pre-punched first board is widened sealingly in this method by a docking punch and then introduced the pressure medium in the intermediate space. A disadvantage of the described method is that an additional processing step is required to introduce an opening for the print medium in the boards.

Based on the above-described prior art, the present invention has the object to provide a tool for the hydroforming process for producing a cavity having a sheet metal part and a corresponding method for producing a cavity having a sheet metal part available, with which the workload can be further reduced while the process reliability for the production of sheet metal parts can be increased. In addition, the invention has for its object to propose cost-manufacturable sheet metal parts.

According to a first teaching of the present invention, the object indicated above is achieved by a generic tool for the hydroforming process in that a cutting docking die is provided.

The cutting docking stamp makes it possible to introduce an opening in the first board when inserting the docking die into the die of the tool and to deform the overlying second board only without causing cracks in the second board. The supply of the pressure medium then takes place via a bore in the docking punch, so that when pressure is applied, the interior can be widened between the two boards. It has surprisingly been found that with the cutting docking punch with high process reliability, a well-defined opening can be cut into the first board without damaging the second board. As a result, therefore, can on a previous hole punching one of the two boards of the Double board can be omitted and the number of steps for the production of sheet metal parts can be reduced.

According to a next embodiment of the tool according to the invention, the die of the Andockstempels on a dome-shaped cavity. The dome-shaped cavity allows, on the one hand, the second circuit board can be high pressure formed by the pressurization in the cavity, a correspondingly large opening for the pressure medium is formed and pressure losses can be reduced. On the other hand, there is sufficient space available that when immersing the Andockstempels in the die, the second board is merely displaced into the room or pressed into it, without causing the cracks in the second board.

If at least one connector is provided for connecting the die to a mold cavity of the tool, the gate to the mold cavity of the tool may be selected depending on the size and shape of the mold cavity.

The sealing of the opening for the pressure medium in the first board relative to the outer space can, according to a next developed embodiment of the inventive tool, be improved in that at least a portion of the tool has the die and / or the docking cam circumferential grooves. In the area of the grooves, the double plate is even more compacted, at least when the tool is closed, so that a very good seal is achieved. The grooves are, for example, in the region of the connection piece interrupted to allow connection to a next mold cavity.

In a particularly simple manner, the docking stamp can be carried out by having a central bore along its axial axis for supplying the pressure medium.

Since it is not necessary to perforate the first board for introducing an opening for the printing medium, the docking stamp has a cutting edge on only one side of the bore for supplying the printing medium.

Preferably, the cutting edge of the docking punch is disposed between the bore and the fitting connecting the die of the docking die to the mold cavity such that the opening cut into the first board permits direct delivery of the pressure medium to the fitting and the mold cavity.

If the cutting edge is arranged parallel to an axial plane of the docking stamp, in particular in the case of a cylindrical docking stamp along a secant of the radial cross section of the docking stamp, then a slot-like opening can be introduced into the first board in a simple manner.

According to a further embodiment of the tool according to the invention, the docking punch has an end face which rises towards the cutting edge. This makes it possible that the first and the second board are only pressed in contact with the docking stamp on the opposite side of the cutting edge and a cutting of the first and the second board is safely avoided. Due to the rising end face of the Andockstempels undergoes the first board in the region of the cutting edge maximum deformation by the Andockstempel. Due to the strong deformation of the first board and the large forces acting on the first board in the region of the cutting edge, an opening in the first board is produced process reliable only in this area. The second board, however, is only deformed.

The process reliability for producing the opening in the first circuit board can be further increased by the fact that the cutting edge has a projection with respect to the end face of the Andockstempels.

A further increase in the process reliability in the hydroforming process can finally be achieved in that the docking punch has a conical cylindrical shape, wherein two recesses are provided which extend along two parallel secants of the radial cross section of the Andockstempels and a recess is bounded by the cutting edge. On the one hand, due to the conical cylindrical shape of the docking stamp, when dipping into the die, the opening made in the first board is better sealed towards the docking punch. On the other hand, the recess along the secant, which is bounded by the cutting edge, creates a break line for the first board, so that the first board is cut in a controlled manner. Opposite the fracture line, a bending line is created by the recess, which allows a reliable bending of the first and the second board to the opening or cutting edge of the Andockstempels out.

As an alternative to the recess facing the cutting edge, it is also possible to provide a more inclined end face of the docking punch in this area to form a bending line for bending the first and second boards.

According to a second teaching of the present invention, the above-derived object is achieved by a generic method in that the introduction of the opening for the printing medium in the first board is done by a cutting Andockstempel in the tool. As already stated, the piercing docking punch makes it possible that a punching of the first blank in an upstream process step is no longer necessary in order to reliably produce sheet metal parts with a cavity from a double blank. The double plate can be fed directly to the hydroforming process, since the punching or the introduction of an opening in the first board takes place in one operation with the hydroforming process.

If the opening in the first board between the bore for the pressure medium supply of Andockstempels and a connector to the mold cavity of the tool is introduced, the arrangement of the opening in the first board allows the pressure medium without detours via the connector in the region of the mold cavity of the tool can reach to expand the double board with the lowest possible pressure loss.

According to a particularly simple embodiment of the method according to the invention cuts after insertion the double board into the tool the cutting docking punch during the closing movement of the tool the opening in the first board.

Finally, the object derived above is achieved according to a third teaching of the present invention by a sheet metal part with a cavity consisting of a double board, which is produced by a method according to the invention, in particular using a tool according to the invention. The sheet metal parts according to the invention have due to the use of the cutting Andockstempels characteristic features in the region of the gate for the printing medium. As explained above, allow the sheet metal parts cheaper production while reducing the necessary operations.

Fig. 1

in einer Querschnittsansicht den Bereich des Andockstempels und der zugehörigen Matrize eines Ausführungsbeispiels des erfindungsgemäßen Werkzeugs in geschlossenem Zustand entlang der Schnittachse A-A,

Fig. 2

eine Querschnittsansicht des Anschnittbereichs einer Doppelplatine nach erfolgtem IHU-Verfahren mit dem Werkzeug aus Fig. 1 entlang der Schnittachse A-A,

Fig. 3

eine Draufsicht des Andockstempels des Ausführungsbeispiels aus Fig. 1 und

Fig. 4

eine Draufsicht der Matrize des Andockstempels des Ausführungsbeispiels aus Fig. 1.

There are now a variety of ways the tool according to the invention for the hydroforming process to design the method for producing a cavity having a sheet metal part of a double board and the sheet metal part according to the invention and further. Reference is made on the one hand to the claims subordinate to claims 1 and 11 claims, on the other hand to the description of an embodiment in conjunction with the drawings. The drawing shows in

Fig. 1

3 shows a cross-sectional view of the area of the docking punch and the associated die of an exemplary embodiment of the tool according to the invention in the closed state along the section axis AA,

Fig. 2

a cross-sectional view of the gate region of a double plate after the hydroforming process with the tool of FIG. 1 along the section axis AA,

Fig. 3

a plan view of the Andockstempels the embodiment of FIG. 1 and

Fig. 4

a top view of the die of Andockstempels the embodiment of FIG. 1.

Fig. 1 shows an embodiment of an inventive tool 1, which consists of at least a first part 2 and a second part 3, in a cross-sectional view along the cutting axis AA perpendicular to the cutting edge 11 of the docking punch 4, wherein at least the two parts 2, 3 of the tool 1 for opening and closing the tool 1 are movable. In Fig. 1, the embodiment of the tool 1 according to the invention is shown in the closed state before the actual Innhochdruckumformen. The second part 3 of the tool 1 has a docking punch 4, which contains a bore 5 for the supply of a printing medium. In the present embodiment, the bore 5 is arranged, for example, centrally along the axial axis in the docking punch 4. Other arrangements of the bore are conceivable. The first part of the tool has an intended for receiving the Andockstempels 4 die 6, which forms a dome-shaped cavity 7 in the tool 1 in the closed state. In addition, it can be seen in FIG. 1 that between the first and second part 2, 3 of the tool 1 a Double board consisting of a first and a second board 8, 9 is arranged.

For hydroforming a double board consisting of a first and second board 8, 9, this is inserted into the open tool 1 and the tool 1 is closed. When closing the tool, the tool parts 2, 3 move toward each other, so that preferably already during the closing operation of the tool 1 of the docking punch 4 is immersed in the mold 6 provided for this purpose. So that there is no displacement of the first and second circuit board 8, 9 against each other during the immersion of the docking punch 4 in the die 6, in the present embodiment in the first part of the tool 2, the die 6 and the docking punch 4 circumferential grooves 10 are provided, which reinforce the pressure on the double board when closing and thus prevent slippage of the boards 8, 9 against each other while sealing the Matrizenbereichs.

The docking punch 4 also has a cutting edge 11 which, as in the present embodiment, runs parallel to an axial plane of the docking punch. The cutting edge 11 is, as shown in FIG. 1, between the bore 5 and a connecting piece 12, which connects the capacity of the die 6 with another mold cavity 13 of the tool arranged. The rising to the cutting edge 11 end face 14 of the Andockstempels 4 ensures that the first and the second board 8, 9 on the cutting edge 11 opposite side only bent and not cut. The cutting edge 11, which has a projection with respect to the end face 14 of the Andockstempels, provides on the basis of on this side of the Andockstempels greater penetration for the generation of an opening 15 in the first board 8. The second board 9, however, is only deformed in the region of the cutting edge of the docking punch 4 and pressed into the cavity 7 of the die 6. If a pressure medium is now introduced into the tool via the bore 5, the parts of the sinkers 8, 9, which are located in the die 6, are pressed against this and correspondingly shaped, so that the pressure medium via the opening 15 with low pressure loss on the connector 12 can penetrate into the mold cavity 13.

A cross-sectional view of the double board in the area of the Andockstempels 4 after performing the hydroforming process, Fig. 2. As can be seen, due to the deformation of the boards 8 and 9 in the region of the die 6 of the Andockstempels has a large opening 15 for the Pressure medium formed and the pressure medium can be passed with little pressure loss through the connector 12 into the mold cavity 13.

The process reliability for producing a corresponding opening 15 in the first circuit board 8 is increased, for example, by the docking punch having a conically running cylindrical shape, recesses 16, 17 being provided on two parallel secants of the radial cross section of the docking punch 4 and a recess from the cutting edge 11 is limited. A correspondingly configured docking punch 4 is shown in FIG. 3 in a plan view. On the one hand, a straight cutting edge 11 and the matching recess 17, as it has the embodiment, easy to manufacture, on the other hand, the second parallel recess 16 for generating a bending edge 19 are used to allow a controlled bending of the first board 8 when dipping the Andockstempels 4 in the die 6. Instead of the recess 16, it is also possible in this area of the docking punch 4 to provide a not-shown, more inclined end face in order to achieve a controlled bending of the first and second boards in this area without formation of cracks.

It is also advantageous if the entire docking punches or parts thereof, in particular the parts subject to wear, are designed as inserts for the tool, so that they can be easily exchanged in the event of wear. This also applies to the die area of the first part 2 of the tool 1, which is shown in a plan view in FIG. 4. In the plan view, the dome-shaped depression of the die 6 can be seen, wherein preferably a portion of the dome 18 is not recessed. This area acts as a hold-down to assist with the bending edge 19 of Andockstempels 4, the bending of the first board. In addition, the grooves 10 can be seen, which rotate around the die area for sealing the double board 8,9. However, corresponding grooves may also be contained in the tool part, which has the docking punch 4. Finally, in Fig. 4 nor the connector 12 is shown, which ensures a connection between the die 6 and the mold cavity 13.

Claims (14)

Hydroforming tool (IHU) method for producing a cavity-comprising sheet metal part from a double plate having at least one die for receiving a double blank consisting of a first and a second board, wherein the tool is composed of at least a first and a second part, a first part of the tool has at least one docking punch for introducing a pressure medium between the first and the second board and a second part of the tool has at least one die for receiving the docking punch,
characterized in that a cutting docking punch (4) is provided. Hydroforming (IHU) tool according to claim 1,
characterized in that the die (6) of the Andockstempels (4) has a dome-shaped cavity (7). Hydroforming (IHU) process according to one of claims 1 or 2,
characterized in that at least one connecting piece (12) for connecting the die (6) with a mold cavity (13) of the tool (1) is provided. A hydroforming (IHU) process according to any one of claims 1 to 3,
characterized in that at least a part of the tool (1) has the die (6) and / or the docking punch (4) circumferential grooves (10). A hydroforming (IHU) process according to any one of claims 1 to 4,
characterized in that the docking punch (4) has a central bore (5) along its axial axis for supplying the pressure medium. Hydroforming (IHU) process according to one of Claims 1 to 5, characterized
characterized in that the docking punch (4) has a cutting edge (11) only on one side of the bore (5) for the supply of the pressure medium. Hydroforming (IHU) process according to one of Claims 1 to 6, characterized
characterized in that the cutting edge (11) is arranged parallel to an axial plane of the docking punch (4), in particular in the case of a cylindrical docking punch (4) along a secant of the radial cross section. A hydroforming (IHU) process according to any one of claims 1 to 7,
characterized in that the docking punch (4) has a cutting edge (11) towards rising end face (14). Hydroforming (IHU) process according to one of Claims 1 to 8, characterized
characterized in that the cutting edge (11) has a projection with respect to the end face (14) of the Andockstempels. A hydroforming (IHU) process according to any one of claims 1 to 9,
characterized in that the docking punch (4) has a conical cylindrical shape, wherein two recesses (16,17) are provided, which extend along two parallel secants of the radial cross section of the Andockstempels and a recess (17) of the cutting edge (11) is limited , A method for producing a voided sheet metal part from a double board using the hydroforming (IHU) method, wherein in a first board at least one opening for a printing medium is introduced, which are sealed to the cavity to be formed edges of the double board against the printing medium in that the printing medium is introduced through the opening of the first board into the space between the first and the second board using a docking punch and a cavity corresponding to the mold cavity of the tool is produced between the two boards by pressurizing the printing medium;
characterized in that the introduction of the opening for the printing medium in the first board by a cutting Andockstempel in the tool, in particular in a tool according to one of claims 1 to 10, takes place. A method of manufacturing a voided sheet metal part from a double board according to claim 11,
characterized in that the opening in the first board between the bore for the supply of the pressure medium of the Andockstempels and a connecting piece is introduced to the mold cavity of the tool. A method of manufacturing a voided sheet metal part from a double board according to one of claims 11 or 12,
characterized in that after inserting the double board into the tool of the cutting Andockstempel cuts during the closing movement of the tool, the opening in the first board. Sheet metal part with a cavity consisting of a double plate produced by a method according to one of claims 11 to 13, in particular using a tool according to claim 1 to 10.

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