DE4103078A1 - DEVICE FOR THE HYDROSTATIC FORMING OF HOLLOW BODIES MADE OF COLD-FORMING METAL - Google Patents

Abstract

A device for the hydrostatic shaping of hollow bodies (16) of cold-workable metal within a shaping recess of a die (13) is fitted with at least one system for supplying pressurising fluid into the hollow body (16). The supply system consists of a supply sleeve coupling (22) conveying the pressurising fluid which can be pushed over the front of a cylindrical clamping region (17) of the hollow body (16) located outside the shaping recess of the die (13) so as to be fluid and pressure-tight. In the supply position, the supply sleeve coupling (22) can be releasably clamped in relation to the die (12) and accepts the clamping region (17) so as to be axially movable in relation thereto. Between the supply sleeve coupling (22) and a high-pressure generator (23) is fitted the line for the pressurising fluid in the form of a pipe (24), e.g. a steel pipe or the like. The pipe (24) forms a curved section (28-29) which permits movement of the supply sleeve coupling (22) and/or the die (13) by bending flexibly.

Description

The invention relates to a device for hydrostati forming of hollow bodies from cold formable material in within a cavity of a die with at least one Feed for the hydraulic fluid in the hollow body.

With the aforementioned known device (see Indu Strie-Anzeiger No. 20 of March 9, 1984/106. P. 16 and 17) are tubular hollow parts made of cold-formable metal, for. B. from 16 MnCr 5, with the supply of high, hydrostatically generated Deformed internal pressure. To the high hydrostatic internal pressure there is a separate axial pressure on the pipe end faces. That axial pressure and the simultaneous The effect of the internal pressure means that the Hollow body wall to the engraving of the mold or die sets.  

In practice, this is so that a straight pipe in the Mold level inserted between the upper and lower dies and the die is delivered. Between top and bottom However, there remains enough space for two diametrically opposite lying horizontally arranged coaxially to each other Press ram, the free end faces of which with the press ram line up, to be deformed pipe section between them to take. The reshaping is then carried out by inserting Hydraulic fluid in the pipe interior with simultaneous on application of the axial pressure, the two press rams on one another to be moved otherwise.

With the well-known hydrostatic shaping can form parts with simultaneous shaping over the circumference, molded parts with sectoral reshaping and finally uniform and sectoral forming he combining moldings be fathered.

The advantage of hollow parts produced in this way is on the one hand in that - such as. B. in permanent mold casting - undercut In NEN cavities can be generated, which escape who does not or only with complicated tools (e.g. through Spark erosion) can be manufactured. In addition, the be knew hollow parts - in contrast to machined parts Hollow parts - relatively light and as a result of the Forming of associated work hardening at a favorable company Server run very similar to that of a forged fiber tough.

Meanwhile, the well-known hydroforming is called felt disadvantageous because a certain minimum thickness of the Cavity wall can not be fallen below. This is because  essentially because the tubular body to be deformed for Inclusion of the relatively ho acting on its end faces hen axial pressure must be appropriately dimensionally stable, what only about the path to a sufficient wall thickness is accomplished.

In addition, the known hydroforming is only ever limited to parts in which the force effects exactly coincide with the introduction of the axial forces, that is to say the ram and the longitudinal central axis of the tube. In this way, at most lateral sectoral protuberances for the production z. B. generated by cross pieces or T-pieces. Here, the longitudinal axis of the protuberance jeweiligs solution sectorial generated in ANPAS to the die engraving transversely to the common force action line of the ram and the tube (s. "Industrial indicator" supra page 17 Figure 4 and 8).

With the well-known internal high pressure forming is accordingly to create a certain number of shapes, which but always to the framework of a common force straight line of the ram and the pipe to be deformed, So it is bound to a basically straight basic shape.

Finally, the known device (see "Indu strie-Anzeiger "op. cit.) because of their particular the rams for the rigidity caused by the introduction of axial force, which also affects the handling, as disadvantageous felt.

Starting from the known before described above direction (see "Industrie-Anzeiger", loc. cit.) of this genus,  is the object of the invention, the known before Direction to design so that they are substantially united fold design makes it easier to use both when setting up work as well as during production.

According to the invention, this object solved that the feed a lead the hydraulic fluid Forming infeed sleeve, which on an outside the cylindrical cavity of the die area of the hollow body to be liquid and pressure tight is slidable, with the feed sleeve in its feed position is releasably locked with respect to the die and the holding area in the axial direction relative to it slidably receives and being between the feed sleeve and a high pressure generator as a line for the pressure flows liquid a pipe, such as steel pipe or the like, is arranged, the a bending path represents the movements of the feed solution sleeve and / or the die with elastic bend takes.

The device according to the invention can on separate Press ram to initiate a hollow to be formed waive axial pressure. Rather worried in the device according to the invention only the pressure flows liquid the deformation of the hollow body within the die. The crucial requirement for this is that the liquid tightness and pressure tight on the cylindrical holding area of the Infeed sleeve to be pushed open in its axial direction specified feed position this holding area in axial direction relative to it. This can under the effect of the hydrostatic internal pressure certain dimensional material from the holding area.  

The elimination of those required in the prior art Press ram (see "Industrial Indicator" op. Cit.) Works alone already greater flexibility in handling it device according to the invention.

The device according to the invention generally works with a hy acting on the hollow body to be formed Drostatic internal pressure of at least 800-1500 bar. Depending on used material and depending on the design of the he Aiming article may also require the hydro increase static internal pressure up to 3000 bar and more. Such high pressures require particularly safe measures alone with regard to their supply routes. A safe one and at the same time adaptable supply route is the Erfin tion succeeded in that between the feed sleeve and the high pressure generator as a line for the hydraulic fluid a pipe, such as steel pipe or the like, is arranged, the one Bending distance represents which movements of the infeed sleeve and / or the die with an elastic bend.

Those features of the invention offer particular advantages:

The otherwise rigid pipe designed as a bending section For example, line is able to move back and forth the drive movement of the feed sleeve.

In addition, the die and any associated with it feeding sleeve when setting up the invention direction can be manipulated in practically any way, without special consideration of the course of the high pressure line would have to be taken. This results in a too  additional spatial movement unit z. B. in the event that the arrangement according to the invention in a certain spatial Relationship to a manipulator for workpiece feeding and the workpiece removal must be moved.

It is important that the bending distance of the steel pipe so is designed that never a plastic deformation can kick. This can mean that the pipeline has a relatively long, wide span arch between the high pressure Producer and the connection to the feed sleeve. Of course, such a bending path can be performed in one Flat or curved in space, cranked or the like be.

In a further embodiment of the invention, the feed is solution sleeve relative to the hollow body received in the die can be driven back and forth, which, as already mentioned, in connection with the flexible piping from be is of particular importance.

Furthermore, the invention provides that a guide tel for the reciprocating feed sleeve by means of a bracket is only attached to the die, whereby the feed sleeve over the guide means on the stop tion is releasably locked.

It is conceivable that during the forming work in Infeed position of the infeed sleeve due to the high hydrostatic internal pressure a considerable reaction force acts axially away from the die on the feed sleeve. Such Forces can be transferred to the die via the holder  be what advantageously a closed force flow means small.

In this context there is a configuration of the Invention in that part of a drive for the back and forth Movement of the feed sleeve at the same time as its guide tel forms while holding another part of the drive tion is fixed and together with the latter a rigid Power transmission bridge to the die forms.

Practically applied, those features of the invention can be indicate that the drive from a pressure-operated Kol ben-cylinder unit is that the feed sleeve load-bearing part of the drive is the piston rod, while as other part of the drive of the cylinders on the bracket is attached.

A particularly easy to use according to the invention direction has been achieved in that die, injection solution sleeve and its drive for the reciprocation a self-contained, spatially manageable assembly form which on an operating device for generation an opening and closing movement of the die, such as. B. on the table of a tool press, is releasably attached.

In this context, too, the bending elastic offers Pipeline special advantages also in the event that the Pressure generating system converted for operational reasons should be, which is facilitated by the fact that high pressure Er producer and possibly also a filler assigned to it pressure generator easily displaceable, such as. B. movable from are formed.  

Preferred embodiments are shown in the drawings shown in more detail according to the invention, it shows

Fig. 1 is a more schematic side view of the device OF INVENTION to the invention,

Fig. 2 is a partial horizontal sectional plan view, approximately corresponding to FIG. 1 II-II section line designated

Fig. 3 shows a cross section through a steel pipe between the feed sleeve and high-pressure generator according to the section line III-III entered in Fig. 2 and

FIGS. 4 and 5 show two further examples of arrangement with walls ren dies, whereby the spatial adaptability of the apparatus is to be set forth.

In the drawings, a device for hydrostatic forming of hollow bodies made of cold-formable metal, regardless of the individual configuration thereof, is generally designated by reference number 10 .

A die 13 is arranged on a press table 11 of a tool press 12 .

The die 13 consists of an upper die 14 and a lower die 15 , which in the region of their mold division level E in a mold cavity, not shown, a rohrför shaped workpiece 16 (hollow body) z. B. record from steel. Of the hollow body 16 , only the holding areas 17 protruding from the die 13 at both ends are visible.

The upper die 14 is releasably attached to a press upper part 18 which can be moved up and down along the movement arrow y.

A hydraulic piston-cylinder unit 19 (hydro cylinder), each with a cylinder 20 and a piston rod 21, is arranged on both sides of the device. At the free end of each piston rod 21 , a feed sleeve 22 is attached, which is used to supply hydraulic fluid from a high-pressure generator 23 , which is shown schematically on the right in FIG. 1.

Together with the piston rod 21 , the feed sleeve 22 can be moved back and forth along the movement arrow denoted by x.

For hydrostatic shaping of the hollow body 16 , both hydraulic cylinders 19 are actuated, such that the two piston rods 21, together with the injection sleeves 22 carried by them, extend from the cylinder 20 in the direction of the die 13 . Here, the feed sleeves 22 slide pressure-tight and liquid-tight over the two hollow body-side holding areas 17 .

Then, from the high-pressure generator 23 via a high pressure line 24 via the hydraulic fluid to the left in FIG. 1 or in Fig. 2 shown feed fitting 22 in the reshaped hollow body 16 initiated. This builds up within the forming area of the hollow body 16 arranged in the die 13 , a hydrostatic internal pressure of, for example, 1500 bar, which applies the hollow body wall to the engraving of the die-side mold cavity. During the formation, the feed sleeves 22 and the piston rods 21 are blocked in the axial direction.

Finally, the high pressure is switched off, so that the two feed sleeves 22 can return to their starting position from the lower Ge 13 away (see, for example, FIGS. 1 and 2). After opening the die 13 by lifting the upper press part 18 together with the upper die 14 , the completely formed hollow body 16 can be removed, for example by means of a manipulator, which can also load the die 13 with hollow body blanks 16 .

In each case on the front cylinder cover 34 of the hydraulic cylinder 19 , two rigid tabs 25 , which are arranged parallel to one another, are fastened, which are also fastened to the lower die 15 . The die 13 therefore forms thanks to the strap bridge 25 , 25 together with the hydraulic cylinders 19 a coherent, closed assembly which can be manipulated almost arbitrarily in a simple desired manner, in particular in a certain position on the press table 11 and below the press senoberteile 18 are adjusted can.

The aforementioned high hydrostatic internal pressure of 1500 bar, which can be up to 3000 bar or more depending on the material and article, causes a reaction force directed away from the die 13 , which must be absorbed by the hydraulic cylinders 19 . Because these are hydrau licly blocked during the forming, so that the two feed sleeves 22 be releasably locked in relation to the die 13 in the axial direction x. The two strap bridges 25 , 25 each form a rigid power transmission bridge to the die 13 and hereby cause ken advantageously a closed power circuit over a short distance.

The high-pressure generator 23 is preceded by a filling pressure generator 26 , which initially causes the hollow body 16 to be quickly filled with pressure fluid at a filling pressure of approximately 65-80 bar with a relatively large delivery volume via the high-pressure head 27 and the high-pressure line 24 . During this phase, the feed sleeves 22 are of course - as already described above - pushed onto the holding areas 17 of the hollow body 16, which is open at both ends, in a liquid-tight and pressure-tight manner.

The hydraulic fluid passes from the high-pressure generator 23 via its line connection 28 , the high-pressure line 24 to the line connection 29 on the piston rod 21 , which includes a liquid-duct channel 30 shown in broken lines in FIG. 2, which continues through a channel 31 of the respective feed sleeve 22 is.

The two connections 28-29 also stand for a bending distance of the steel tube 24 , which he stretches in a flat long arc in about one plane. The steel tube 24 is so long that a back and forth movement of the feed sleeve 22 carrying Kol rod 21 always remains in the flexible area, so that practically an uncountable number of working cycles is possible with regard to the known Wöhler curve.

Characterized in that the steel pipe 24 is designed as an elastic bending section, an arrangement and adjustment of the die 13 can be made together with the hydraulic cylinders 19 practically regardless of the spatial position of the high pressure generator 23 .

On the other hand, the high-pressure generator 23 (like the filling pressure generator 26 ) can be moved on rollers 32 . In this way, high-pressure generator 23 and filling pressure generator 26 can be moved with a very large margin, if the operating situation should require, thanks to the flexible construction of the steel tube 24 .

From Fig. 3 it can be seen that the steel tube 24 is very thick-walled for the conduction of the hydraulic fluid. The inner diameter a is 4.8 mm in the present embodiment, while the tube wall thickness b is 4.7 mm.

Are only shown with reference to FIGS. 4 and 5 is intended that the high flexible bending path 28-29 performing pressure steel pipeline 24 practically any desired configurations and arrangements of dies 13 allows. For example, the die according to FIG. 5 for forming a hollow body 16 extending at a right angle is provided with a corresponding mold cavity (not shown), so that the longitudinal axes of the two hydraulic cylinders 19 , which are aligned with the holding regions 17 on the hollow body side, are at right angles to one another extend. According to Fig. 5 an approximately 135 ° arrangement is provided.

A tool press, which has only three support columns 33 arranged at a circumferential angular distance of 120 °, has proven to be favorable for the unhindered spatial handling of the assembly sleeves 22 formed from the two hydraulic cylinders 19 with feed 22 and the die 13 .

In addition, it should be noted that in the illustrated From always exemplary embodiments only one feed fitting 23 is connected to the high pressure line 24, while the other feed fitting 22 has no fluid passage forming thus a blind sleeve 22 which with respect to feeding sleeve of the pressure fluid leading A, with otherwise identical design embodiments 22 only has a locking function.

The filling line (hose) between the high pressure generator 23 and the filling pressure generator 26 is designated 35 .

Claims (8)

1. Device for the hydrostatic forming of hollow bodies made of cold-formable metal within a mold cavity of a die, with at least one feed for the hydraulic fluid in the hollow body, characterized in that the feed forms a feed sleeve leading to the hydraulic fluid A ( 22 ), which on an outside the cylindrical cavity ( 17 ) of the hollow body ( 16 ), which is located in the cavity of the die ( 13 ), can be pushed on tightly in terms of liquid and pressure, the feed sleeve ( 22 ) being releasably locked in its feed position with respect to the die ( 13 ), 17 ) in the axial direction relative to it receives and a pipe ( 24 ), such as steel pipe or the like, is arranged between the feed sleeve ( 22 ) and a high-pressure generator ( 23 ) as a line for the pressure fluid, which has a bending path ( 28-29 ) represents which movements of the feed sleeve ( 22 ) and / or of the die ( 13 ) with an elastic bend. 2. Device according to claim 1, characterized in that the feed sleeve ( 22 ) can be driven back and forth relative to the hollow body ( 16 ) accommodated in the die ( 13 ). 3. Apparatus according to claim 2, characterized in that a guide means ( 21 ) for the reciprocating feed sleeve ( 22 ) by means of a bracket ( 25 , 25 ) is finally attached to the die ( 13 ). 4. Device according to one of the preceding claims, characterized in that the feed sleeve ( 22 ) via the guide means ( 21 ) with respect to the holder ( 25 , 25 ) is to be locked releasably. 5. Device according to one of the preceding claims, characterized in that a part ( 21 ) of a drive ( 19 ) for the reciprocating movement of the feed sleeve ( 22 ) also forms its guide means, while another part ( 20 at 34 ) of the drive ( 19 ) is attached to the holder ( 25 , 25 ) and, together with the latter, forms a rigid power transmission bridge to the die ( 13 ). 6. The device according to claim 5, characterized in that the drive consists of a pressure-operated piston-cylinder unit ( 19 ) that the feed sleeve ( 22 ) supporting part of the drive ( 19 ) is the piston rod ( 21 ), while as another Part of the drive ( 19 ) of the cylinder ( 20 at 34 ) is attached to the holder ( 25 , 25 ). 7. Device according to one of the preceding claims, characterized in that the die ( 13 ), feed sleeve ( 22 ) and the drive ( 19 ) for the reciprocating movement form a unitary, spatially manageable assembly, which on an operating device for generation an opening and closing movement (y) of the die ( 13 at 14 ), such as. B. on the table ( 11 ) of a tool press ( 12 ), is releasably attached. 8. Device according to one of the preceding claims, characterized in that the high-pressure generator ( 23 ) and possibly also an associated filling pressure generator ( 26 ) easily displaceable, such as. B. movable, are formed from.