DE4326924A1 - Method for operating a drop-forging press - Google Patents

Abstract

The invention relates to a method for operating a drop-forging press having a vertically movable press ram, a handling system for automatic workpiece transportation, a device for blowing out and spraying the forging dyes, as well as a microprocessor control. To increase the hourly output of forgings, the handling system is controlled electronically via the microprocessor independently of the press ram. The duration of one cycle of the handling system is preferably set shorter than that of the press ram, each cycle of the handling system being started anew, via the microprocessor, at a given position of the press ram. The press ram is operated on a continuous-running basis.

Description

The invention relates to a method for operating a Drop forging press with a vertically movable press plunger, a handling system for automatic work piece transport, a device for blowing and loading spray the dies as well as a microprocessor for control of the handling system and the press ram.

In a known method of the type mentioned Press ram operated in so-called switching operation. The Handling system for automatic workpiece transport runs continuously, d. that is, the Arbeitszyk Repeat len continuously and without pause. The stroke of the Pres tappet is at a certain point in the cycle of the Handling system switched on, preferably to the time when the workpieces in the die start have been placed and the handling system differs from the Loosens workpieces and returns to their starting position. There is always one press stroke per cycle of the Handling system.  

When using this procedure, every individual Stroke of the press ram all for the execution of this stroke required masses in motion and after execution of the forging process are slowed down again. this will taken over by a clutch or a brake. The Be Acceleration and braking energy is used in the system Thermal energy released. This leads to a significant one structural effort of the systems so that by the free heat generated is absorbed or dissipated can be led. In addition, the switching operation with Ver wear on everyone involved in motion transmission Components connected.

For these reasons, larger presses can only be used with one relatively low switchable number of strokes of the press ram be driven. So z. B. at a drop forge press with 40 MN press force max. only about 22 strokes of the Press ram per minute possible. If you assume that every second forging operation with a workpiece 660 parts are produced per hour. In mass production, where large quantities this output is often not sufficient. Assigning each operation leads to a larger pres and often to thermal problems in the tool area.

The invention is therefore based on the object, a Ver drive to create with which without essential equipment the additional effort of the forge press can be increased and the main wear eliminating factors in the kinematic chain become.

According to the invention this object is achieved in that the Handling system with which the workpieces automatically be transported, regardless of the press ram is controlled electronically via the microprocessor that  the duration of one cycle of the handling system is shorter or is set equal to that of the press ram that the press ram is operated in continuous operation and that each cycle of the handling system at a particular one New position of the press ram via the microprocessor is started.

When using the method according to the invention, a Optimization of the movement cycles of the press ram and the handling system for transporting the workpieces achieved. The press ram working in continuous operation is set to the highest possible stroke frequency, the depending on the machine and those to be processed Workpieces can be realized.

Each cycle of the handling system is determined by one th position of the press ram restarted, so that the handling is synchronized with each cycle systems to the press ram results.

Preferably the duration of a cycle of the hand system shorter than that of the press ram provides, the handling system after completion of his Cycle stops to return at the appropriate time selected position of the press ram started again to become. This measure is a reliable syn chronization guaranteed.

The cycle of the handling system expediently becomes one Time started when the press ram briefly runs out ter bottom dead center or in the area of bottom dead point or has finished its forming work.

Through the constant synchronization of the handling system and press rams can hardly cause any malfunctions in the Operation of the forging press come. Malfunctions  could possibly arise from defects in the Mechanics of the handling system or on its drives occur. As a precaution, the Mikropro processor the cycle of the handling system and the presses compare the tappet at least in sections, the Movement of the press ram can be interrupted if the handling system with a certain ram position has not reached its specified degree of fulfillment.

The heat generated in the dies by the forming process me must be removed. According to the invention is therefore for Blow out and spray the dies a separate pre direction provided, the movement cycle mechanically with that of the press ram is coupled. By mechanical Coupling this device with the press ram is with optimal out relatively little technical effort use of for blowing out and spraying the dies Available time possible.

The method according to the invention is described below described an embodiment and using a Diagram explained in detail.

In the present embodiment, the method carried out at a forging press, one in verti calender direction movable press ram. When Handling system for transporting the workpieces is used so-called walking beam automatic.

With such a forging press, the diagram shows the Path of the press ram opened over the time axis carry. Below this path / time curve are scaled in The individual motion sequences in the form of ramp diagrams of the automatic walking beam. The cycle starts with the closing (SL), whereby the forgings of sprung Grippers can be transported in the walking beam. After that he  the lifting beams are lifted (HE) with the forgings and then the lead (VL), d. H. the transport of the Forgings to the next forging operation, followed by Lowering (SE) the walking beam with the forgings into the Die. After placing the forgings in the die he follows the opening (UE) and then the return (RL) the walking beam without forgings back into the exit position.

The cycle of the walking beams starting at time (A) automatic ends in point (B), in which the walking beam automatic stops.

Considering the cycle of working in continuous operation press ram begins at bottom dead center (UT), runs over top dead center (OT) and ends in the following bottom dead center (UT). From the diagram is clear can be seen that the cycle of the automatic walking beam is shorter than that of the press ram.

The cycle of the automatic walking beam is at time (A) started, d. H. shortly after the press ram the lower Has passed dead center (UT). From this starting point the automatic walking beam runs according to a specified mode regardless of the press ram. After completing the cycle The automatic walking beam remains in point B of the diagram stand and will be at the next ram position in point A started again. This functional behavior creates with each ram stroke of the machines running through a syn Chronization of the automatic walking beam for the functional sequence of the Ram. The functional rest between point B and A the automatic walking beam provides additional security to a precisely defined time after each cycle right start.  

Despite this electronic synchronization of the two Systems can have an additional security check between the press ram and the automatic walking beam his. This happens in point C of the stroke curve of the press pestle. If at this point the functional progress of the Automatic walking beam does not meet the specified degree of fulfillment the press is switched off. The machines Brake the press then ensures that the press ram in time before the lower reversal point to a standstill is coming.

The continuous operation can be between press ram or Ge lower and workpiece at longer pressure contact times than in Switch operation, since the speed of the Eccentric shaft chosen significantly higher and thus a quick longer stroke can be achieved. In this respect is on one intensive cooling of the forging dies. By doing Diagram is a temporal one below the top dead center Distance entered between points D and E, in which in Tool room for cooling and lubricating the dies follows. The drive of the device required for this is mechanically coupled to the press ram, so that the for cooling and lubricating the dies standing time optimally from point D to point E can be exploited. The coupling mechanism is like this designed that in the area of the top dead center of the pres plunger for the cooling and lubricating device in the factory press room a standstill over a certain Ram stroke is provided. This standstill causes one reproducible, intensive spraying time.

When using the method according to the invention, it is possible Lich, without any significant additional technical effort increase in forging presses known per se. So can e.g. B. a 40 MN forging press with a stroke rate operating between 30 and 36 strokes per minute, what  if every second operation is assigned to an off of 900 to 1080 forgings per hour. In addition, when using the invention Procedure by eliminating the manual transmission the forge press are driven gently, so that their lifespan is increased.

Finally, the mechanics are also simplified since there are none mechanical coupling between the press ram and the Automatic walking beam is there, because this coupling is only controlled by the microprocessor. Such a system with an electronic coupling between the press and the Hubbal kenautomatik alternatively enables switching operation Push of a button.

Claims (5)

1. A method of operating a drop forging press with a vertically movable press ram, a handling system for automatic workpiece transport, egg ner device for blowing and spraying the dies and a microprocessor for controlling the handling system and the press ram, characterized in that the handling system is independent of the press ram is controlled electronically via the microprocessor, that the duration of a cycle of the handling system is set to be shorter than or equal to that of the press ram, that the press ram is operated in continuous operation and that each cycle of the handling system is restarted via the microprocessor at a specific position of the press ram becomes. 2. The method according to claim 1, characterized records that the duration of the cycle of the Handling system shorter than that of the press ram is set and that the handling system after Completion of his cycle stops at the Return of the selected position of the Press ram to be started again.   3. The method according to claim 1 or 2, characterized characterized that the cycle of the hand system is started at a time when the press ram in the area of the bottom dead point or the press ram is reshaped finished work. 4. The method according to any one of claims 1 to 3, because characterized in that the Mi croprocessor the cycle of the handling system and the Press ram compares at least in sections and that the movement of the press ram is interrupted if the handling system on a particular ram position does not meet its specified degree of fulfillment has reached. 5. The method according to any one of claims 1 to 4, there characterized by that to the end blow and spray the dies a separate pre direction is provided, the movement cycle mecha niche is coupled with that of the press ram.