EP0768127A2 - Drawing apparatus for a press - Google Patents

Abstract

The device has a piston rod (5) to retain a metal sheet in a holder, which can be accelerated before the application of a drawing element. An accelerating cylinder (5) is fixed to the press, and has an accelerating piston which combines with the rod, and which has a larger first pressure surface which opposes the drawing direction, than its opposing second pressure surface. The corresponding first and second pressure spaces (7,8) in the cylinder around the accelerating piston can be connected to a pressure reservoir (11), and the first pressure space can also be connected to a dosing cylinder (15), in which a dosing piston (16) is guided. A forward stroke cylinder (17) is fixed to the press parallel to the retaining piston rod, and has a forward stroke piston rod (18) and a piston (19), which is separated from it by a controlled first pressure volume (20). A second pressure volume (21) can also be displaced by this piston.

Description

The invention relates to a pulling device for a press according to the kind defined in the preamble of claim 1.

During the working stroke of the drawing ram of a press, the sheet inserted into the tool or a sheet holder is first pressed against the sheet holder by the drawing ring and then moved together with the sheet holder against the holding force exerted by the drawing device. The sheet held between the sheet holder and the drawing ring is deformed by the drawing punch of the tool half on the press table. In addition to the holding force to be exerted by the pulling device, the plunger must also support the inertia forces caused by the acceleration of the movable sheet metal holder and pulling device masses at the beginning of the Deformation take effect, overcome.

When the upper tool of the press hits the sheet metal holder, there is always a relatively hard blow with subsequent vibrations, which is associated with a correspondingly large amount of noise. At the same time, the sheet metal holder must be accelerated suddenly to the speed of the press ram.

In order to avoid the impact occurring when the upper tool of the press hits the sheet metal holder, DE-OS 40 28 920 discloses a mechanical or hydraulic press with a pulling device for drawing work or a drawing step of a step press. The workpiece is clamped in a known manner using a sheet metal holder. In order to dampen the impact that occurs when the upper tool hits the sheet metal holder, and in particular the impact noise, the movement of the press ram is transmitted to at least one hydraulic cylinder, the hydraulic medium of which acts via a control or positively controlled on a further pressure cylinder and in particular a damping cylinder, which has a die cushion and is thus connected to the sheet metal holder and thereby accelerates the sheet metal holder in the direction of drawing.

A disadvantage of the mechanical or hydraulic press known from the aforementioned publication, however, is that the acceleration of the lower die of the press takes place depending on the path of the ram of the press, which means that there is no possibility of accelerating or starting the acceleration of the lower die with the Sheet holder can be freely defined or changed.

A generic pulling device for a press is known from DE-OS 36 40 788. In the cited publication, a pulling device for a press with a mechanically moved ram and with a sheet metal holder is described, the holding force acting on the sheet against the pulling direction is applied via a piston rod of a pressurized pressure cylinder that is pressurized with pressure medium, the piston rod being pressurized with a pressure piston Effective surface is operatively connected and a ram path-dependent control is provided, by means of which the plunger can be pre-accelerated in the direction of drawing before the drawing plunger is placed on the sheet metal holder by acting on the active surface with hydraulic fluid. The effective area of the pressure piston The assigned pressure chamber can be connected on the one hand to the pressure chamber of a pre-acceleration cylinder and, via a follow-up control, to a reservoir for hydraulic fluid.

A disadvantage of the pulling device described, however, is that it can also be controlled as a function of the path of the pulling ram of the press and that a relatively long time is required to accelerate the lower tool in the pulling direction. In addition, the arrangement described is relatively susceptible to vibrations.

The present invention is therefore based on the object of providing a drawing device for a press, by means of which the lower tool or the sheet metal holder arranged on the lower tool and thus also the workpiece can be accelerated in the drawing direction quickly and independently of the path of the drawing ram of the press.

According to the invention this object is achieved by the features specified in the characterizing part of claim 1.

Due to the arrangement of the pre-acceleration cylinder described pressure can permanently be applied to the pre-acceleration cylinder from the pressure accumulator, since this is in the basic position of the press, i.e. before the start of the drawing process and before the start of the downward movement of the drawing ram, despite simultaneous application of a pressure medium, preferably hydraulic fluid, to the first and second active surfaces first active surface is held in the basic position.

Thus, pressure medium can be fed very quickly into the second pressure chamber during acceleration of the pre-acceleration piston and the pre-acceleration piston together with the piston rod can be accelerated correspondingly quickly in the direction of pull.

The quantity of pressure medium displaced from the first pressure chamber by the pre-acceleration piston is fed to a dosing cylinder, by means of which the path of the pre-acceleration piston which it is intended to cover during the pre-acceleration phase of the drawing process, i.e. during the acceleration of the sheet metal holder to the speed of the drawing ram, can be set.

By means of the arranged parallel to the piston rod Lead cylinder, in which the lead piston rod and the lead piston are slidably guided, a pressure is built up after the pre-acceleration of the sheet metal holder to the speed of the drawing ram, which is necessary for forming the sheet metal located in the sheet metal holder.

The pressure build-up takes place after the displacement of pressure medium from the feed cylinder by the feed piston and during the controlled discharge of pressure medium displaced by the feed plunger from the feed cylinder.

Thus, in the drawing device according to the invention, the pre-acceleration of the lower tool of the press or the sheet metal holder and the pressure build-up for the forming process take place in two separate and successive or in common stages. At the same time, the control of the corresponding components or assemblies which initiate the acceleration of the pre-acceleration piston can take place independently of the position of the drawing ram, so that the time at which acceleration of the pre-acceleration piston and all components and assemblies directly or indirectly connected to it starts to be adjustable.

In an advantageous embodiment of the invention it can be provided that the pre-acceleration piston is arranged concentrically to the piston rod, whereby the entire pulling device according to the invention can be constructed in an extremely space-saving manner.

In order to provide the drawing depth of the drawing device in an adjustable manner, a stop can be provided on the end of the piston rod facing away from the sheet metal holder. The stop can be designed as an adjustable stop member.

Further advantageous refinements and developments of the invention result from the further subclaims and from the exemplary embodiment described in principle below with reference to the drawing.

Fig. 1

einen Vertikalschnitt durch den Vorbeschleunigungsbereich einer erfindungsgemäßen Ziehvorrichtung, und

Fig. 2

ein Diagramm zur Darstellung der Bewegungsabläufe von Ziehstößel und Blechhalter während der Vorbeschleunigungsphase.

It shows:

Fig. 1

a vertical section through the pre-acceleration area of a pulling device according to the invention, and

Fig. 2

a diagram to illustrate the movements of the ram and sheet holder during the pre-acceleration phase.

1, a vertical section through a drawing device for a press is shown schematically.

In this case, pressure pins 2 are arranged on a pressure box 1, of which only one pressure pin 2 is shown in the view according to FIG. 1 for reasons of clarity. The lower tool, not shown, of the press with the sheet metal holder is attached to the pressure pins 2.

The pressure box 1 is connected to a piston rod 4 acting parallel to the direction of drawing (arrow 3), which is guided in a suitable and known manner.

Concentric to the piston rod 4 is a pre-acceleration cylinder 5 which is fixed to the press and has a pre-acceleration piston 6 provided therein and displaceable in the axial direction of the piston rod 4. The pre-acceleration cylinder 5 has a first pressure chamber 7 and a second pressure chamber 8, the first pressure chamber 7 being assigned a first active surface 9 and the second pressure chamber 8 a second active surface 10 of the pre-acceleration piston 6.

It is of course at the discretion of the person skilled in the art to also provide the pre-acceleration cylinder 5 separately from the piston rod 4.

In the present exemplary embodiment, the first pressure chamber 7 and the second pressure chamber 8 are arranged one above the other. However, other arrangements of the pressure spaces 7, 8 with respect to one another are also possible.

In the basic position of the drawing device shown in FIG. 1, that is to say before the forming process begins, the same pressure is applied to the first active surface 9 and to the second active surface 10 from a pressure accumulator 11 of a known type. The pressure accumulator 11 can be charged to a suitable pressure by means of a pump 12.

A suitable hydraulic fluid or compressed air can be used as the pressure medium.

The pressure contained in the pressure accumulator 11 or the pressure medium contained therein is supplied to the first pressure chamber 7 and the second pressure chamber 8 via a cartridge 13 in the basic position of the drawing device shown in FIG the annular design of the first active surface 9, which is provided to be larger than the second active surface 10, which is also annular, the pre-acceleration piston 6 is held in its position shown in FIG. 1.

If the cartridge 13 is controlled such that the pressure present in the pressure accumulator 11 is only present in the second pressure chamber 8, and at the same time a proportional valve 14, which is arranged between the first pressure chamber 7 and a press-tight metering cylinder 15, is opened, it is due to the lower pressure of the pre-acceleration pistons 6 in the first pressure chamber 7 compared to the second pressure chamber 8 is accelerated in the direction of pull 3, pressure medium from the first pressure chamber 7 being fed to the metering cylinder 15 in a controlled manner via the proportional valve 14.

A metering piston 16 is arranged in the metering cylinder 15 and is displaced downward in the view according to FIG. 1 by the pressure medium displaced from the first pressure chamber 7.

Since the pre-acceleration cylinder 5 is operatively connected to the piston rod 4 in a suitable manner the piston rod 4 and the pressure box 1 connected to it, with all the components attached to it, including the sheet metal holder, accelerated by the pressure medium conveyed from the pressure accumulator 11 into the second pressure chamber 8 to a speed which corresponds to the speed of the drawing plunger (not shown) Press corresponds.

The pre-acceleration path is limited by the metering piston 16, which is displaceably guided in the metering cylinder 15, i.e. as soon as the metering piston 16 is at its stop, the pre-acceleration process or the pre-acceleration phase is completed and further acceleration of the pre-acceleration piston 6 and the piston rod 4 by pressure medium from the pressure accumulator 11 is no longer possible.

Only as much pressure medium is displaced from the first pressure chamber 7 by the pre-acceleration piston 6 as is required to accelerate the pressure box 1 with the components attached to it to the speed of the drawing ram. This amount of pressure medium can be determined in the metering cylinder 15 by a suitable setting of the stops or a travel limitation of the metering piston 16.

In parallel to the piston rod 4, a press-resistant feed cylinder 17 is also connected to the pressure box 1. Of course, a plurality of press-resistant feed cylinders 17 connected to the pressure box 1 can also be provided. In each of the feed cylinders 17, a feed piston rod 18, which produces the connection to the pressure box 1, and a feed piston 19, which is provided separately from the feed piston rod 18, are displaceably arranged parallel to the pulling direction 3. A first pressure medium volume 20 is provided between the advance piston rod 18 and the advance piston 19, and a second pressure medium volume 21 is provided on the side of the advance piston 19 facing away from the first pressure medium volume 20.

When the pressure box 1 is pre-accelerated, it is moved downward in the drawing direction 3 in the view according to FIG. 1 as described.

As a result, the supply piston rod 18 is also moved in the direction of pull 3, as a result of which the first pressure medium volume 20 moves downward unchanged together with the supply piston 19 and, at the same time, the second pressure medium volume 21 is pressed into a further pressure accumulator 22 by the supply piston 19, which likewise moves in the pulling direction 3.

The second pressure medium volume 21 displaced by the advance piston 19 is provided in such a way that after the pre-acceleration phase has ended, that is to say when the metering piston 16 of the metering cylinder 15 is in its intended end position, the advance piston 19 has also reached its end position. This means that the second pressure medium volume 21 and the volume of the pressure medium present in the first pressure chamber 7 of the pre-acceleration cylinder 5 must be provided such that they each define the same path of the pressure box 1 or the piston rod 4.

There is therefore no pressure increase or pressure build-up in the feed cylinder 17 during the pre-acceleration phase.

At this point in time, that is to say after the pre-acceleration phase has ended, the ram of the press sits on the sheet metal holder and the sheet metal holder or the pressure box 1 is moved further in the direction of pull 3 by the ram of the press. Now, in order to carry out the shaping of the sheet inserted in the sheet holder, a corresponding pressure must be built up, which acts counter to the direction of drawing 3.

This is done in that the pre-acceleration piston 6 now stops, while the first pressure medium volume 20 is controlled by a further proportional valve 23 and displaced by the supply piston rod 18 from the supply cylinder 17 and fed into a tank 24 for pressure medium.

At the same time, the piston rod 4 and the pressure box 1 continue to move in the direction of pull 3.

Through the controlled discharge of the first pressure medium volume 20 from the feed cylinder 17, a regulated pressure suitable for the forming process can be set by means of a suitable regulation.

If after the end of the forming process, i.e. when the ram of the press is at its bottom dead center, the pressure box 1 is to be moved up again, a pneumatic cylinder 25 cooperating with the piston rod 4, the piston 26 of which was moved in the drawing direction 3 during the forming process , acted upon in a suitable manner with compressed air in such a way that the piston 26 of the pneumatic cylinder 25 moves counter to the pulling direction 3 and in this case the piston rod 4 and the pressure box 1 with all the components attached to it again Brings home position.

A suitable device or arrangement for controlling the pneumatic cylinder 25 is known from practice, which is why it will not be discussed in more detail here.

At the same time, the cartridge 13 is actuated, so that the same pressure prevails in the first pressure chamber 7 and in the second pressure chamber 8, as a result of which, owing to the larger first active surface 9, the pre-acceleration piston 6 counter to the direction of pull 3 into the basic position shown in FIG. 1 is moved.

The pre-acceleration piston 6 is thus moved back into its basic position independently of the piston rod 4 and the pressure box 1.

The metering piston 16 is also returned to its starting position in a suitable manner, the volume of pressure medium contained in the metering cylinder 15 being conveyed back into the first pressure chamber 7.

The first pressure medium volume 20 is refilled to a preset value and from the further one Pressure accumulator 22 is supplied with pressure medium in the second pressure medium volume 21, as a result of which the supply piston 19 also moves into its basic position counter to the direction of drawing 3.

Thus, the basic position of the drawing device shown in FIG. 1 is restored, after which a new forming process can be initiated.

At the end of the piston rod 4 facing away from the pressure box 1, a stop member 36 which is adjustable by means of a worm wheel 27 is provided, which in the present exemplary embodiment interacts with a stop nut 28, so that the depth of the pulling device can be adjusted in a simple manner by means of the parallel to the pulling direction 3 Stop member 36 can be adjusted. The stop member 36 is displaced by the pre-acceleration piston 6 during the pre-acceleration phase in the direction of pull 3 and in doing so presses on the stop nut 28 firmly connected to the piston rod 4, as a result of which the pressure box 1 is accelerated.

The movement of the pressure box 1 or the piston rod 4 connected to the pressure box 1 is counteracted by means of the stop member 36 and the stop nut 28 the direction of pull 3 limited.

Furthermore, the piston rod 4 is provided with a damping device 29, by means of which the piston rod 4, with all the components connected thereto, in particular with the pressure box 1, can be brought into its basic position shown in FIG. 1 after the shaping process.

It is of course at the discretion of the person skilled in the art to also provide the metering cylinder 15 with a suitable damping device in order to avoid sudden braking of the metering piston 16 when it reaches its end position.

With the described pulling device, pre-acceleration of the pressure box 1 with the lower tool of the press or the sheet metal holder attached thereon can be achieved quickly and independently of the path or the position of the pulling ram of the press.

The control of the described components or assemblies takes place in a known manner by means of a control, not shown.

2 shows a section of a diagram in which the stroke of the drawing ram is plotted against the angle of rotation of the drive, a curve 30 for a possible movement of the drawing ram of a press and a curve 31 for a possible movement of the printing box 1 and thus also of the sheet metal holder.

During the working stroke of the ram, the sheet holder is accelerated from a freely definable or dynamic point 32, which is not dependent on the path of the ram of the press. The acceleration or pre-acceleration of the sheet metal holder or pressure box 1 takes place up to a point 33 at which the speed of the pressure box 1 corresponds to the speed of the drawing ram. From point 33, the pressure builds up in the feed cylinder 17 (see FIG. 1) and the pressure box 1 is moved further in the direction of drawing 3 at the speed of the drawing ram.

In addition, a further curve 34 is shown in FIG. 2, which represents the pressure build-up for the forming process after the end of the pre-acceleration phase over the angle of rotation.

From curve 34 it can be seen that the pressure build-up begins at point 33, at which the pre-acceleration of the pressure box 1 has ended, and extends to a further point 35, at which the first pressure medium volume 20 is discharged from the feed cylinder 17 in a controlled manner. From this point in time, the pressure in the feed cylinder is regulated until the forming process is completed.

Claims (7)

Pulling device for a press, with a plunger and with a sheet holder with a sheet held therein, wherein a holding force counteracting the pulling direction can be applied to the sheet via a piston rod which can be displaced parallel to the pulling direction, with a control being provided by which before the pulling plunger is placed on the sheet metal holder, the sheet metal holder can be accelerated in the direction of drawing, and with a pre-acceleration cylinder that is fixed to the press, with a pre-acceleration piston that is operatively connected to the piston rod and has differently sized, oppositely acting first and second active surfaces, the pre-accelerating cylinder having a first and a second pressure chamber and the first acting counter to the drawing direction Active area of the pre-acceleration piston is provided larger than the second active area,
characterized in that the first and second pressure chambers (7, 8) of the pre-acceleration cylinder (5) can be connected to a pressure accumulator (11) and the first pressure chamber (7) can also be connected to a metering cylinder (15) in which a metering piston (16) slidably guided parallel to the piston rod (4), there is a press-fixed feed cylinder (17,) with a feed piston rod (18) and a feed piston (19) separate from the feed piston rod (18), and between the feed piston rod (18) and the feed piston (19) a first pressure medium volume (20) which can be discharged in a controlled manner from the supply cylinder (17) is provided and a second pressure medium volume (21) can be displaced from the supply cylinder (17) by the supply piston (19). Pulling device according to claim 1,
characterized in that the pre-acceleration piston (6) is arranged concentrically with the piston rod (4). Pulling device according to claim 1 or 2,
characterized in that a stop (36) for limiting the drawing depth is attached to the end of the piston rod (4) facing away from the sheet metal holder. Pulling device according to claim 3,
characterized in that the stop is designed as an adjustable stop member (36). Pulling device according to one of claims 1 to 4,
characterized in that the second pressure medium volume (21) displaced by the supply piston (19) can be conveyed into a further pressure accumulator (22). Pulling device according to one of claims 1 to 5,
characterized in that a proportional valve (14) is provided between the first pressure chamber (7) in the pre-acceleration cylinder (5) and the metering cylinder (15). Pulling device according to one of claims 1 to 6,
characterized in that the first pressure medium volume (20) can be removed between the supply piston rod (18) and the supply piston (19) via a further proportional valve (23).

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