DE19945635A1 - Plate metal parts, preformed by hydraulic medium, are transformed preferably on press using lower tool with feed devices and accumulator chamber for hydraulic medium - Google Patents

Abstract

Plate metal parts (5), preformed by a hydraulic medium, are transformed preferably on a press using a lower tool (1) with feed devices and an accumulator chamber (4) for a hydraulic medium. A holding down device (7) and a draw plunger (6) are provided. The accumulator chamber is filled with hydraulic medium and the plate part is laid over the accumulator chamber and held down. The volume of the accumulator chamber is reduced, the draw plunger is moved downwards, all presses and tool parts are moved backwards and the tool is opened. The transformed part is removed.

Description

The invention relates to a method for forming sheet metal parts by means of a Hydraulic medium are preformed, according to the preamble of claim 1 known as active hydromechanical deep drawing.

For sheet metal parts that require an even plasticization of the bottom of the drawn part active hydromechanical deep drawing with a so-called Vor Shaped proven.

According to the previously known method, flat boards are placed in a lower tool inserted, which has a storage chamber for a hydraulic medium. After which a hold-down is placed on the board, the workpiece is opposite Lower tool and thus sealed against the storage chamber. The so fixed and sealed circuit board is hydraulically preformed by the pressure and the volume of the hydraulic medium filling the storage chamber is increased. The It takes place via a controlled active hydraulics by means of a hydraulic pump or by means of one or more pressure translators. The forming machine remains preferred wise a deep drawing press, at rest.

As soon as the preforming carried out by means of the hydraulic medium is completed , the drawing punch located on the main ram of the press moves below and turns the preformed workpiece back into the lower tool.  

By further increasing the fluid pressure, the workpiece is now against the stem pel pressed and receives its final geometry.

A disadvantage of this forming process is the very long cycle time, which means that only one low volume output can be achieved.

The invention has for its object a method for forming sheet metal share according to the preamble of claim 1 to find a shorter cycle time permits and accordingly allows a more economical production. Furthermore a tool for carrying out the method is to be found.

This object is ge with a method according to the features of claim 1 solves. Claim 2 shows a solution for a tool for performing the procedure rens according to claim 1. Advantageous training and further education of the tool Claim 2 are described in claims 3 to 6.

The advantages achieved with the invention are in particular that the active hydromechanical preforming of sheet metal parts can be carried out economically can, so that this process is economically used for series production for the first time can be set. Furthermore, it is advantageously no longer necessary when active Preform to use a separate hydraulic pump or pressure intensifier what also leads to increased economy.

An embodiment of the invention is shown in the drawing and is in following described in more detail. Show it

Fig. 1 shows a forming tool after the insertion of the sheet metal part,

Fig. 2 shows the forming tool of FIG. 1 according to the low running of the hold-down device ters,

Fig. 3, the forming tool of FIG. 2 after reducing the volume of the storage chamber and

FIG. 4 shows the forming tool according to FIG. 3 after the drawing die has been lowered.

In the embodiment it is provided that the forming process by a low drawing press is carried out. However, since the type of press for the forming process is not important, the forming press is not shown.

The lower tool 1 is fastened on the press table (not shown ) . This lower tool 1 has a bottom 2 and a crown part 3 on the bottom 2 and crown part 3 are axially displaceable against each other and tet tetich against each other. The interior of the crown part 3 protruding from the bottom 2 forms a storage chamber 4 , which is filled with a hydraulic medium before or after placing the sheet metal part 5 , which is designed as a circuit board. The upper part of the tool has a drawing punch 6 , which is attached to the main tappet of the press, not shown, and is surrounded by a hold-down device 7 . Drawing punch 6 and hold-down 7 are axially movable independently of each other.

Fig. 1 shows the tool after placing the sheet metal part 5 and filling the storage chamber 4 with hydraulic medium. After this operation, as shown in FIG. 2, the hold-down 7 moves onto the edge of the sheet metal part 5 and holds and clamps the sheet metal part 5 with respect to the lower tool 1 . At the same time, this results in a seal between sheet metal part 5 and crown part 3 .

As can be seen from Fig. 3, there is then a reduction in the volume of the storage chamber 4 , in the exemplary embodiment in that the height of the crown part 3 projecting above the bottom 2 is reduced. This can be done in that the holding-down device 7, the rim member presses with a fixed base 2 3 over the edge region of the sheet metal part. 5 The upward and / or downward movement of the crown part 3 is limited by adjustable stops (not shown) with regard to the end position. The reduction in the volume of the storage chamber 4 can take place with a fixed rim part 3 in the same way by a height shift of the then vertically movable floor 2 .

By reducing the volume of the storage chamber 4 , the hydraulic medium expands upwards, which leads to the so-called preforming of the sheet metal part 5 . In the exemplary embodiment, FIG. 3, the sheet metal part 5 is dented upwards.

As can be seen from FIG. 4, the preforming of the sheet metal part 5 is followed by an inversion. This is achieved in that the punch 6 moves down and presses the upwardly arched sheet metal part 5 . Since the hydraulic medium located in and above the storage chamber 4 is almost non-compressible, it continues to fill below the sheet metal part 5 a constant volume. As a result, it is sufficient that the sheet metal part 5 flows into the free spaces between the punch 6 and the hold-down device 7 , which then results in the corner 8 shown in FIG. 4. After this order, the final shape of the sheet metal part 5 is reached. Of course, the back pressure of the lower tool 1 receiving the hydraulic medium must correspond to the pressure of the drawing die 6 .

A filling and emptying opening 9 for filling and emptying the storage chamber 4 with hydraulic medium is arranged in the lower tool 1 . For the forming process, it is irrelevant whether the storage chamber 4 is emptied and filled between the forming processes or whether the hydraulic medium remains between the removal of the finished workpiece and the insertion of a new sheet metal part 5 in the storage chamber 4 . It is only important that a well-defined constant amount of the hydraulic medium is before the next forming process in the storage chamber. 4

As an alternative to the previously described forming with a constant volume of the Hydraulic medium during the lowering of the drawing die is also possible Lich, the hydraulic pressure regulated to constant during this process step be liable. This adjustable constant pressure can be maintained by means of proportional valves will hold. The excess hydraulic medium is discharged to the outside.  

Reference list

1

Lower tool

2nd

ground

3rd

Wreath part

4th

Storage chamber

5

Sheet metal part

6

Drawing stamp

7

Hold-down

8th

corner

9

Filling and emptying opening

Claims (6)

1. A method for forming sheet metal parts ( 5 ), which are preformed by means of a hydraulic medium, on a forming machine, preferably a press using a tool, including

• - a lower tool ( 1 ) with feed means and a storage chamber ( 4 ) for a hydraulic medium,
• - A hold-down device ( 7 ) and
• - a drawing punch ( 6 ),

characterized by the work steps

• - filling the storage chamber ( 4 ) with hydraulic medium,
• - placing over the storage chamber ( 4 ) and holding down the sheet metal part ( 5 ),
• - reducing the volume of the storage chamber ( 4 ),
• - lowering the drawing punch ( 6 ),
• - Retracting all presses and tool parts and opening the tool

and

• - Remove the finished part.

2. Tool for performing the method according to claim 1, characterized in that the lower tool ( 1 ) has a bottom ( 2 ) and a crown part ( 3 ) which are sealed against one another and axially displaceable. 3. Tool according to claim 2, characterized in that the interior of the crown part ( 3 ) projecting from the bottom ( 2 ) forms the storage chamber ( 4 ). 4. Tool according to claim 2 or claim 3, characterized in that the crown part ( 3 ) on the interposed sheet metal part ( 5 ) from the holding-down device ( 7 ) is lowered while overcoming a counter pressure relative to the fixed floor ( 2 ). 5. Tool according to claim 4, characterized in that the movement of the crown part ( 3 ) is limited at least in one direction by stops. 6. Tool according to claim 2 or claim 3, characterized in that the bottom ( 2 ) is axially displaceable relative to a fixed crown part ( 3 ).