EP0074421B1 - Deep-drawing arrangement for presses with mechanically driven drawing punch - Google Patents

Description

The invention relates to a drawing device for presses with a mechanically driven ram and with a sheet metal holder, the holding force acting on the sheet metal, counteracting the drawing direction, is exerted via a pressure plate by means of a drawing cushion piston which supports it and is pressurized with pressure medium in a fixed drawing cushion cylinder.

During the working stroke of the ram of such a press, the sheet metal is first pressed against the sheet metal holder by the drawing ring and then moved together with the latter against the compressive force acting in the drawing cushion cylinder, the sheet metal held between the sheet metal holder and the drawing ring being deformed at the same time by the drawing die of the tool fixed on the press table becomes. The drawing plunger moves the sheet metal holder against the pressure force acting on the drawing cushion piston, the drawing plunger also having to overcome the inertia caused by the acceleration of the movable sheet metal holder and die cushion mass. The sheet metal holder, which is supported on the die cushion piston, forms a rigid system with a large, coherent mass, which has to be accelerated suddenly from the rest to the speed of impact of the die rod. If the sheet metal holder force is generated hydraulically in the die cushion, the inertia force of the hydraulic fluid must also be overcome when the stationary system accelerates.

In a known drawing device of the type mentioned (DE-PS No. 1452943), a resilient member is arranged between the sheet metal holder and the movable masses of the die cushion. As a result, the movable mass of the die cushion is accelerated in time after the mass of the sheet holder, so that the mass forces of the entire system do not add up. The resilient link causes a constant increase in the speed of the die cushion piston up to the speed of the die ram. This steady increase in speed of the die cushion piston reduces the effective inertia force of the die cushion piston. At the same time, the drawing ram strikes the sheet lying at rest on the sheet metal holder with its speed given in this range of motion, so that there is an undamped impact impact.

The object of the invention is to avoid or at least reduce this impact impact in a pulling device of the type mentioned at the outset.

This object is achieved according to the invention in that a piston with an active surface which can be acted upon in the direction of drawing is fastened to the pressure plate, and in that a control which operates depending on the ram path is provided, by means of which, before the drawing plunger is placed on the sheet metal holder, the pressure is applied to the active surface to cause movement can be accelerated in the direction of pull.

As a result of these measures, the sheet metal holder with the sheet metal lying thereon is already moving in the direction of drawing when the drawing ram strikes the sheet metal; the relative speed between the ram and the sheet is therefore lower than when it hits the stationary sheet. The impact impact is thereby mitigated or avoided entirely.

A particularly simple structural design of the drawing device is obtained if the active surface is formed on the drawing cushion piston.

A particularly sensitive adjustment of the movement of the sheet metal holder to the movement of the drawing ram can be achieved in that the control influences the application of pressure medium to the active surface via a proportional valve.

The movement of the sheet metal holder in the drawing direction can expediently be accelerated to a speed which is equal to or slightly less than the speed of the drawing ram when it is placed on the sheet metal holder.

In the drawing, a pulling device is shown in a vertical section as an exemplary embodiment of the invention.

In a base frame 1 of a press, which is not shown in the drawing, a lower tool 3 with a fixed drawing die 4 and a sheet metal holder 5 movable in the drawing direction is arranged on a press table 2. The sheet metal holder 5 is supported via pressure pins 6 on a pressure plate 7, which is attached to the upper end of a piston rod 8, to which a piston 9 and a die cushion piston 10 are rigidly attached. The piston 9 is guided in a cylinder 11 which is fixed to the frame and has an upper active surface which can be acted upon in the drawing direction. The drawing cushion piston 10 is guided in a drawing cushion cylinder 12 fixed to the frame, in the lower region of which an annular piston 13 surrounding the piston rod 8 is also guided, the movements of which in the drawing direction downward through the end wall of the drawing cushion cylinder 12 and upward through an inner annular collar 14 on the drawing cushion cylinder 12 are limited.

A bladder accumulator 15 is connected to the pressure medium space formed under the annular piston 13 in the die cushion cylinder 12. A pressure medium supply 16 via a check valve 17 and a pressure medium discharge line 18 via a pressure relief valve 19 are connected to the pressure medium space formed under the drawing cushion piston 10 in the drawing cushion cylinder 12 above the annular collar 14. A pressure medium supply and discharge is connected to the pressure medium space formed in the cylinder 11 above the piston 9 via a switchable valve 20. The valve 20 is connected via an operative connection 21 to a control which is dependent on the ram and consists of a cam follower 22 and a cam 23 which rotates synchronously with a mechanical drive (not shown in the drawing) for a drawing ram 24. The ram 24 carries on its underside a drawing ring 25 opposite the sheet metal holder 5 and an ejector 26 opposite the drawing punch 4.

A working cycle of the pulling device begins in the - shown in the drawing - initial position, in which a plate 27 rests on the plate holder 5, which is in its highest position, in which it rests against a collar 28 of the lower tool 3 from below. The Ziehstössel24 begins its downward movement. Before the impact of the drawing ring 25 on the sheet 27, the control acts on the active surface on the top of the piston 9 with pressure medium, so that the piston rod 8 with all the parts attached to it and the sheet holder 5 are accelerated in the drawing direction. During this acceleration, the sheet metal holder 5 with the sheet metal 27 lying thereon drops so far that the upper sides of the sheet metal holder 5 and the lower tool 3 are at the same height and the sheet metal 27 rests on the drawing die 4. In the meantime, the drawing plunger 24 with the drawing ring 25, which moves faster in the drawing direction, has reached the top of the sheet 27. During the acceleration, the pressure medium enclosed in the pressure medium space under the die cushion piston 10 has also displaced the annular piston 13 by its stroke 29 until it abuts the lower end wall of the die cushion piston 12. The stroke 29 is equal to the amount by which the sheet metal holder 5 projects in its highest position with its upper side above the upper side of the lower tool 3. With the placement of the drawing ring 25 on the sheet 27 and the start of the annular piston 13 on the lower end wall of the drawing cushion cylinder 12, the drawing device begins to work in the usual manner as a hydraulic drawing device. After the drawing stroke has ended, the drawing device returns to the starting position shown in the drawing.

Claims (4)

1. Drawing mechanism for presses having a mechanically driven drawing ram (24) and a blank holder (5) whose holding force acting on the blank (27) oppositely to the drawing direction is exerted via a pressure plate (7) with the aid of a drawing cushion piston (10) which supports said pressure plate and is loaded by pressure medium and which is disposed in a stationary drawing cushion cylinder (12), characterized in that a piston (9) having an operative surface adapted to be loaded in the drawing direction is fastened on the pressure plate (7), and that a control means (22, 23) is provided which works in dependence on the travel of the ram and by which the blank holder (5), before the drawing ram (24) contacts it, is adapted to be accelerated into a movement in the drawing direction through the loading of the operative surface with pressure medium.

2. Drawing mechanism according to Claim 1, characterized in that the operative surface is formed on the drawing cushion piston (10) in the drawing cushion cylinder (12).

3. Drawing mechanism according to Claim 1 or 2, characterized in that the control means (22, 23) controls the loading of the operative surface with pressure medium with the aid of a proportional valve.

4. Drawing mechanism according to Claim 1, 2 or 3, characterized in that the movement of the blank holder (5) in the drawing direction can be accelerated to a speed equal to or slightly lower than the speed of the drawing ram (24) when it makes contact with the blank holder (5).

Images