DE1196963B - Hydraulic molding press with movable upper and lower punch - Google Patents

Description

Hydraulic molding press with movable upper and lower punch Die The invention relates to a compression molding press with a compression mold in which the movable Lower punch and the movable upper punch protrude and their content by setting the filling level is variable. The filling level is determined by the starting position, i.e. the determined lower position of the additionally driven lower punch.

It is known that the starting position of the plunger and abutments in to make adjustable in various ways.

So one has z. B. in presses fixed abutment rides the starting position of the plunger with the help of a further cylinder and a hydraulically adjustable one Piston in this cylinder made adjustable so that the stroke of the plunger and Press ram can be changed during operation.

In another press with a fixed abutment, the ram moved by a remote drive plunger, which in turn is moved by a crank is driven so that the ram works in time with the drive plunger. In order to be able to change the working height of the punch in this case, the amount of liquid which is located between the drive plunger and the plunger, with the help of a hand-operated plunger, it becomes the hydraulic one, so to speak Linkage between drive plunger and plunger extended or shortened, whereby the two end positions of the ram change.

For dies, embossing presses and others for punching, punching, scissors, Cutting, ironing, flanging and similar work, certain presses are used as the abutment resiliently supported on the hydraulic fluid in a cylinder with a storage bottle is connected, in which there is partly air partly liquid, so that the Abutment can evade when a certain pressure is exceeded. the initial situation of the abutment is determined by the stroke end of the abutment cylinder.

There are also crank presses for die work and the like which the abutment is hydraulically supported on a piston, the top position of the abutment can be adjusted by a gear, for example by a gear transmission.

It is also known for the abutment supported on a piston a press to be provided with a stop that can be adjusted by means of an adjusting spindle, which determines the lowest position of the abutment.

The invention has for its object the accuracy of the compression molding produced compacts, in particular to increase the stones produced in stone presses. The requirements that are placed on the accuracy of the stones go like this far, that deviations of a fraction of a millimeter are regarded as intolerable will. Based on the adjustment devices for the lower punch or abutment the invention consists in an automatic readjustment device for the lower punch, the distance between the lower punch and the highest when the distance between the lower punch deviates from the nominal value Pressing pressure reached the end position of the upper punch depending on the difference value the starting position of the lower stamp corrected.

The measuring device is used to achieve this automatic adjustment from a contact finger, which is connected to the upper punch, and one with the Stamp associated stop for actuating this contact finger, with deviations corresponding adjustment pulses from the central position to change the height of the starting position of the lower stamp there.

It is particularly advantageous to change the starting position of the Lower ram to hydraulically support the lower ram on an abutment piston, whose opposite piston surface from the pressure medium of a hydraulic fluid or Compressed air network is acted upon in a known manner and in which between the abutment piston and one. a hydraulic linkage connected to the lower punch is provided, which has a displacement piston and a moving this from Contact finger controlled servomotor is adjustable.

In the drawing, an embodiment of the invention is shown, namely, FIG. -1 press and adjustment device in. Scheme, F i g. 2 one mechanical adjustment device.

The press 1 according to FIG. 1 shows a top Holm? An upper plunger 3 in the cylinder 4 and a lower beam 5 with Preßkplben 6 in the cylinder 7, the pistons are connected to upper punches 8 and dies 9, z. B. the stamps are divided because several molds 11 are housed in the table 10 , in which the plates are pressed.

The piston 6 is supported on the adjusting piston 15 via the extension 14 . This rests on the liquid column 16, which preferably consists of pressurized oil. By moving the displacer 17 in the cylinder 19 with the aid of the spindle drive 18 , the height of the adjusting piston 15 and thus the lowest position of the plunger 6, i.e. its starting position, is determined.

Below the piston 15 in the cylinder 20 , a differential piston 21 is accommodated in the cylinder 22 as an abutment. This abutment piston 21 is acted upon by the pressure oil at 24 from above. The network pressure from the line 25 in the cylinder chamber 26 acts on the piston 21 from below.

The network pressure drives the piston 21 upwards until it is present at 28. The liquid column extending between the upper part 21 a of the piston and the adjusting piston 15 now determines the height of the adjusting piston 15 and thus of the plunger 6 and the lower ram which forms the bottom of the molds 9 . By changing the position of the displacement piston 17 in the cylinder 19 with the aid of the adjusting motor 30 and the spindle drive 18 , the adjusting piston 15 can be raised or lowered so that the mold 11 in the table 10 is less or more filled.

If the upper punch 8 pushes through the lower punch 9 as a result of an incorrect control, this pressure is propagated via the parts 6, 14, 15, 24, 21a and 21 to the cylinder space 26 and the network 25 . The abutment piston 21 gives way and pushes the pressure fluid in front of it in the network. The network absorbs them either through its own elasticity or through a pressure accumulator. The overloading of the lower punch is thus elastically absorbed, and breakage cannot occur.

If the correct pressure is available again, the network pressure gains the upper hand and drives the piston 21 to the stop 28 and with it the parts 21a, 15, 6 and 9. The starting position is therefore automatically brought about again and again.

A rod 33 with an adjustable stop 34 is attached to an arm 32 of the lower plunger 6. A pointer device 36 , the contact finger 37 of which is controlled by the stop 34 , is attached to a holder 35 of the upper plunger 3.

As soon as the highest pressing pressure is reached and the further control of the press is triggered, the measuring device 36 also receives current and thus measures the position of the contact finger 37 brought about by the stop 34. If this is in the zero position, as shown in the drawing, no Correction made. If, however, the pointer deviates to the left in this position, current is passed through the line 40, the pointer 37, one of the contacts 41 and the resistor 42 , which then starts the motor 30 directly or indirectly for a set time. Because of the series resistor 42 , the less the pointer 37 deviates from the zero position, the shorter the time, so that the extent of the deviation also determines the extent of the correction movement.

In this way, it can change in the course of the press operation Properties of the pressed material are constantly taken into account, so that stones or Plates of great accuracy can be produced. A disruption or impairment of operation is neither through the post-correction in the event of overpressure nor through the post-correction required when changing the pressed material. The performance of the press is at the same time Precision work increased considerably.

In the example according to FIG. 2, the setting of the lower plunger 6 via the extension 14 is not carried out hydraulically, but rather by the spindle drive 50 with worm 51 and motor 52 . The engine sits on a carrier 53 which is supported on the abutment piston 21 . On the other hand, the pressure from the network 25 acts on this piston. The mode of operation is the same as in the first exemplary embodiment. In the event of overpressure, the entire engine 50, 53 with the piston 21 gives way and is brought back to its initial position by the network pressure. The correction movement is carried out by the motor 52 on the basis of the measurement results on the device 36.

In the hydraulic version, the setting piston 15 and the abutment piston 21 do not need to be coaxial with the lower piston 6, but the coaxiality results in the most skilful arrangement. Displacement effect or the like. Work. When using the device 36 can also work with induction, displacement or the like. When using the pointer device shown, a feedback device, not shown, because it is known, ensures that the pointer 37 is pivoted to its left deflection end after the measurement has been carried out. The corresponding device is expediently coupled to the press control.

Instead of an entire compressed air network 25 , an appropriately sized memory can also be used. Its pressure must be approximately constant and kept so high that, in conjunction with the corresponding surfaces of the pistons 21, 21a, 15 and 6, it is possible to evade an overpressure that is dangerous for the press, but also to allow the maximum permissible compression pressure to be absorbed.

The invention is, as the embodiment 2 shows, not to the Using a hydraulic adjustment device tied in combination with it but it is particularly cheap to build. The adjusting spindle can be placed anywhere z. B. to the side of the press and in any case above the hallway, so that a convenient control is possible at any time.

Claims (3)

Claims: 1. Hydraulic molding press with a separately driven one Upper punch and an additionally driven lower punch, whose the filling level the starting position determining the pressed material is adjustable, characterized by a automatic readjustment device for the lower punch, which deviates from the setpoint Distance of the lower punch from the end position of the reached at the highest pressure The upper punch corrects the starting position of the lower punch depending on the difference value. 2. Hydraulic molding press according to claim 1, characterized by a contact finger (37 ) arranged on the upper punch (8), which is arranged pivotably in both directions from a center position corresponding to the target value of the distance: upper punch-lower punch and with a with the lower punch (9) connected, adjustable stop (34) is in engagement. 3. Hydraulic molding press according to claim 1 or 2, in which the lower ram is hydraulically supported on an abutment piston, its other piston surface from the pressure medium of a hydraulic fluid or compressed air network is acted upon, characterized in that between the abutment piston (21) and an adjusting piston (15) connected to the lower punch (9), a hydraulic one Linkage is provided which has a displacement piston (17) and a moving piston and the servomotor (30) controlled by the contact finger (37) is adjustable. Into consideration printed publications: German Patent Specifications No. 848 596, 98162; french U.S. Patent No. 567153; USA: Patent Nos. 2,489,069, 2,007,290.