DE19951850C1 - Production of molded parts comprises arranging a sheet steel between a molding tool and a membrane, molding the steel sheet against the molding tool, and releasing the pressure after complete deformation of the steel sheet - Google Patents

Abstract

Production of molded parts comprises: arranging a sheet steel between a molding tool having a groove for cutting and a membrane; molding the steel sheet against the molding tool by increasing the fluid pressure; and releasing the pressure after complete deformation of the steel sheet. An Independent claim is also included for a device for producing the molded parts. Preferred Features: During deformation, the fluid pressure within the pressure tube corresponds to the membrane pressure.

Description

The invention relates to a method for producing molded parts and a device for Manufacture of molded parts using a mold and a fluid pressurized Has membrane, between which a sheet to be deformed is arranged, wherein the Forming tool has at least one tool part prepared for trimming.

Instead of rigid, molded parts are produced using the deep-drawing process Thermoforming tools are increasingly used methods and devices in which the sheet to be deformed against a fluid pressure membrane Forming tool is deformed, whereby geometrically complicated molded parts can be produced become. To simplify the workflow, it is desirable to work within the Forming tool by cutting, notching, punching or the like from the deformed sheet to produce the finished molded part.

DE 37 09 181 A1 describes a method for producing complex sheet metal parts and a tool for the pressure forming of such sheet metal parts has become known. In which Procedures take place during the molding process, causing multiple trimming processes material for the deep-drawing process is lost every time. The tool has several  trimming tool parts such as cutting strips or perforated dies, with between the die and the sheet to be deformed is arranged. The trimming takes place simultaneously with the shaping of the sheet, d. H. the material becomes, so to speak, on the cutting bars during the flow sheared, which leads to inaccuracies of the cut edges on the finished molded part. The Hole device of the tool has a complex structure and is because of moving parts in operation prone to failure.

In contrast, the invention has for its object a method and Device for the production of molded parts to be specified under all conditions work reliably and enable a precise manufacture of the molded parts.

This object is achieved by the method according to the invention, in which

• a) a sheet between at least one groove prepared for trimming having mold and a fluid-pressurized membrane is ordered
• b) the sheet from the membrane by increasing fluid pressure against the mold is deformed, one arranged in the trimming groove, with a fluid fillable, in the filled state the groove filling pressure hose one that Prevent the sheet from entering the trimming groove of the molding tool Fluid pressure is exposed, and
• c) after the complete deformation of the sheet while maintaining the Membrane pressure the fluid pressure is suddenly released from the pressure hose.

The fluid pressure within the pressure hose fills the trimming groove, so that the Deformation of the sheet on the entire surface of the mold without disturbing intermediate trimming or the like. All the material is available Manufacture of the molded part available and the forming conditions, especially the Fluid pressure increase can be optimally adapted to the deformation. Only when that Sheet is brought into its final shape, trimming, notching or Punch by suddenly releasing the fluid pressure from the pressure hose. The Membrane printing trims the material in relation to the complete correct position of the Molded part and the inertia of the molded part material prevents lateral flow, so that exact cutting edges result. So with the method it is possible in one shape and cut, notch or cut with a single tool punch holes, whereby a high dimensional accuracy is guaranteed.  

Advantageously, during the deformation, the fluid pressure within the Pressure hose to the membrane pressure, which makes the sheet safe during forming is prevented from entering the pruning groove.

It is particularly advantageous, before releasing the fluid pressure from the pressure hose the fluid pressure on the membrane and pressure hose above that required for the deformation To increase dimension, which makes a particularly quick and therefore exact pruning, Notching or punching is possible.

In the device for producing molded parts according to the invention it is provided that the molding tool has at least one trimming groove in which one with a fluid fillable, in the filled state the groove filling pressure hose is arranged.

In an advantageous embodiment, the pressure hose with a pump and a Provide pressure relief valve, it also being convenient to have the pressure hose with a valve to connect the fluid deforming the sheet.

To reduce the stress on the pressure hose during trimming, Notching or punching it is recommended to use a pressure hose To surround protective tube, the cross section of which advantageously the trimming groove is adjusted.

However, it is also advantageous to have the pressure hose on the side facing the groove opening to develop more.

In order to obtain particularly precise cutting edges, it is advisable that the trimming groove be a has a sharply defined cutting edge, preferably from a special cutting iron is formed.

The rounded shape of the other edge of the trimming groove also makes it easier exact material cut at the cutting edge of the groove.

For punching the molded part in particular, it is advantageous if the molding tool has a sealed with a membrane on the mold surface, with a fluid Has fillable bore, the bore membrane particularly preferably from one a ring having a cutting edge is held. This is mainly the manufacturing small holes easier.  

The invention is explained for example in the drawing. Show it:

Fig. 1 is a partial view of a device according to the invention in section;

Fig. 2 to 5 individual steps in the manufacture of a molded part based on an enlarged section of the device of FIGS. 1 and

Fig. 6 shows a detail of a device according to the invention with a special hole device.

In FIG. 1, a device 1 is shown during the deforming of a metal sheet. The individual steps in the manufacture of a molded part result from the detailed figures described below. The device 1 consists of a mold 2 and a membrane 3 , which is pressurized by a fluid, not shown. The device 1 is used in conventional presses or the like. The sheet 4 to be deformed is arranged between the molding tool 2 and the membrane 3 . The molding tool 2 has, for example, strongly curved areas 5 , into which the sheet metal must flow during the shaping.

The mold 2 has at least a Beschneidenut 6, in which a od with an unillustrated fluid, such as water. The like., Can be filled, in the filled state fills the groove 6-pressure hose 7 is disposed. The cutting groove 6 can circulate in the mold 2 or cut out only partial areas. The course of the trimming line on the molded part can be arranged as desired, even three-dimensionally. By designing the trimming groove accordingly, it is also possible to notch individual areas or punch holes.

The pressure hose 7 is provided with a fluid pump 9 and a pressure relief valve 10 via a feed line 8 provided in the mold. A connection to the fluid generating the membrane pressure could also be provided via a valve.

Fig. 2 shows a detail of the device 1 prior to the start of the deformation. The sheet 4 is arranged between the mold 2 and the membrane 3 . The pressure hose 7 surrounded by a protective hose 12 is located in the cutting groove 6 , which is equipped with a cutting iron 11 . A die 11 is particularly necessary if the molding tool 2 is made of a relatively soft material. While the pressure hose 7 is usually designed to be elastic, the protective hose 12 does not have to be stretchable, but only has a sufficient cross section to fill the cutting groove and is sufficiently strong to reliably protect the pressure hose. However, it would also be conceivable to adapt the pressure hose 7 directly to the trimming groove and to design it more on the side facing the groove opening. In any case, it must be ensured that the pressure hose is not damaged by wear or sharp sheet metal edges.

To describe the deformation of the sheet 4 , reference is made to FIGS. 3 to 5. First, the fluid pressure on the membrane and within the pressure hose 7 is increased, so that the sheet 4 begins to deform. The membrane 3 deforms the sheet against the molding tool 2 , the filled pressure hose 7 with its protective hose 12 preventing the sheet 4 from penetrating into the cutting groove 6 . The pressure in the pressure hose 7 must be so great that the sheet 4 cannot be pressed into the trimming groove 6 by the membrane, it is advantageous if the pressures on the membrane 3 and pressure hose 7 are the same, which is due to a connection can be made possible between the two fluids.

By increasing the fluid pressure on the membrane 3 and the pressure hose 7 , the sheet 4 according to FIG. 4 is also deformed into strongly curved areas 5 of the molding tool 2 , the sheet material being able to flow over the entire surface, even beyond the cutting groove 6 . The fluid pressure within the pressure hose is, by the way, so high that the entire groove of the pressure hose 7 and protective hose 12 is filled.

After the sheet 4 is completely deformed and is in contact with the molding tool 2 everywhere, the fluid pressure on the membrane 3 and the pressure hose 7 can be increased further if this should be necessary in order to enable exact trimming, notching or punching. As soon as the fluid pressure is suddenly released from the pressure hose 7 via the pressure relief valve 10 , the sheet metal 4 is sheared off according to FIG. 5 by the pressure of the membrane 3 still existing on the cutting edge 13 of the cutting iron 11 . The sheet is already fully formed, so that the cuts are made in relation to the complete correct position of the material. The inertia of the material and the sudden pressure release prevent the material from wandering sideways, so that 4 exact cutting edges result on the sheet. The other edge of the cutting groove 6 is rounded.

In FIG. 6, a special punching device 14 is shown, which consists of an opening provided in the mold 2 the bore 15 which is filled with a fluid. On the mold surface, the bore 15 is closed by a bore membrane 16 , which is held by a ring 17 having a cutting edge. In the step shown, the sheet 4 is deformed by the membrane 3 everywhere on the mold 2 . The fluid pressure in the bore 15 corresponds to the pressure on the membrane 2 . To punch the sheet 4 , the fluid pressure is suddenly released from the bore 15 , as a result of which the sheet 4 , as in the trimming groove 6 , is sheared off by the pressure of the membrane 3 which is still present at the cutting edge of the ring 17 . Here, too, the holes are punched precisely and in the correct position. In particular in the case of small bores 15 , it would also be conceivable to dispense with the bore membrane 16 , in which case the bore 15 is closed directly by the metal sheet 4 by the pressure of the membrane 3 for pressurization.

Deformation and trimming, notching and / or punching of the sheet 4 is thus possible within the device 1 , so that a finished molded part can be produced in one operation, which, because of its exact manufacture, requires no further post-processing.

Claims (14)

1. Process for the production of molded parts, in which

• a) a sheet is arranged between a molding tool having at least one groove prepared for trimming and a membrane subjected to fluid pressure,
• b) the sheet is deformed by the membrane against the molding tool by increasing fluid pressure, a pressure hose arranged in the cutting groove, which can be filled with a fluid and filling the groove in the filled state, being exposed to a fluid pressure preventing the sheet from penetrating into the cutting groove of the molding tool, and
• c) after the complete deformation of the plate while maintaining the membrane pressure, the fluid pressure is suddenly released from the pressure hose.

2. The method according to claim 1, characterized in that during the deformation the fluid pressure inside the pressure hose corresponds to the membrane pressure.   3. The method according to claim 1 or 2, characterized in that before draining the fluid pressure from the pressure hose, the fluid pressure on the membrane and Pressure hose is increased beyond what is necessary for the deformation. 4. Apparatus for producing molded parts, which has a molding tool and a fluid-pressurized membrane, between which a sheet to be deformed is arranged, the molding tool having at least one tool part prepared for trimming, characterized in that the molding tool ( 2 ) has at least one trimming groove ( 6 ), in which a pressure hose ( 7 ), which can be filled with a fluid and fills the cutting groove ( 6 ) in the filled state, is arranged. 5. The device according to claim 4, characterized in that the pressure hose ( 7 ) with a pump ( 9 ) and a pressure relief valve ( 10 ) is connected. 6. Apparatus according to claim 4 or 5, characterized in that the pressure hose ( 7 ) is connected via a valve to the fluid ( 4 ) deforming the sheet. 7. Device according to one of claims 4 to 6, characterized in that the pressure hose ( 7 ) is surrounded by a protective hose ( 12 ). 8. The device according to claim 7, characterized in that the protective tube ( 12 ) is adapted to the cross section of the cutting groove ( 6 ). 9. Device according to one of claims 4 to 6, characterized in that the pressure hose ( 7 ) is reinforced on the side facing the groove opening. 10. Device according to one of claims 4 to 9, characterized in that the trimming groove ( 6 ) has a sharply defined cutting edge ( 13 ). 11. The device according to claim 10, characterized in that the trimming groove ( 6 ) has a cutting iron ( 11 ). 12. The apparatus of claim 10 or 11, characterized in that the other edge of the cutting groove ( 6 ) is designed rounded. 13. Device according to one of claims 4 to 12, characterized in that the mold ( 2 ) has a on the mold surface with a membrane ( 16 ) closed, with a fluid fillable bore ( 15 ). 14. The apparatus according to claim 13, characterized in that the membrane ( 16 ) is held by a ring having a cutting edge ( 17 ).