DE102014116950B4 - A process for hot or warm forging a workpiece and manufacturing plant for hot or warm forging a workpiece - Google Patents

Abstract

A process for hot or warm forging a workpiece (1) comprising the following steps: providing the workpiece (1), at least partially pretreating the workpiece (1), at least partially heating the workpiece (1) to a target temperature in a heating station (20) and at least partially reshaping and / or hardening the workpiece (1), wherein the workpiece (1) is at least partially cleaned in a cleaning step between the pre-treatment and the heating of the workpiece (1), characterized in that the workpiece (1) is in the cleaning step at least partially thermally treated.

Description

State of the art

The present invention relates to a method for hot or warm forging a workpiece and a manufacturing plant for hot or warm forging a workpiece.

In hot and warm forging, non-coated or coated materials are generally used. To avoid corrosion during transport, a semi-finished, coil- or platinum-shaped partially, preferably completely, be provided with a corrosion protection oil or with lubricants.

For example, the document discloses DE 10 2013 002 121 A1 a method for hot forming a metal sheet, wherein the metal sheet is applied before or after heating with a lubricant and is transferred with the lubricant in a pressing tool. Further, the document discloses EP 2 848 715 A1 a coating process for steel components, which allows corrosion protection of the steel parts with high flexibility of the processing properties.

In addition, contamination by dust or the like, in particular in a coil or sinker storage, usually also can hardly be avoided.

Caused by thermal processes that occur when reaching the desired temperature for the tempering process, there is a thermal decomposition of the substances that have deposited on the semi-finished product. As a result of this thermal decomposition, pollutants remain on the semifinished product, which in turn reduce the quality of the finished semifinished product. Mechanical cleaning, for example by means of shot blasting, can not always completely remove the residues that occur or can impair in particular coated semi-finished products. Furthermore, high oil residues, eg. B. lead by a high oil layer, during processing of the semifinished product to an increased hydrogen absorption in the material. This can lead to material embrittlement due to the high strength. In the case of microbubble this behavior can not be determined, but then can not be ensured sufficient corrosion protection.

Disclosure of the invention

It is an object of the present invention to provide a method for hot or warm forging a workpiece which further improves the quality of the hot or warm forging manufactured component over the prior art.

The present invention achieves the object by a method according to claim 1 of the present invention.

Compared to the prior art, the workpiece is cleaned in time after the pretreatment and prior to heating for forming and / or hardening, and in particular freed from residues that have been deposited by the pretreatment on the workpiece. This improves the quality of the component produced in time after the workpiece has been formed, since it reduces the likelihood of settling pollutants which form when the workpiece is heated from the residues, and thus the probability of permanent damage to the workpiece. In addition, in the cleaning step other contaminants, such. As dust, be removed from the workpiece.

It is preferably provided that the cleaning step is carried out immediately before heating. It is further preferably provided that the workpiece after forming and / or hardening as a manufactured component is a structural or chassis component of a motor vehicle. In particular, the workpiece is provided as a sheet-metal part, in particular as a planar sheet-metal plate (direct hot forming) or as a molded part (indirect hot-forming) that almost has its final geometry, wherein the pretreatment is at least part of the production process of the sheet-metal part. Furthermore, it is preferably provided that the partial area of the workpiece, which is to be heated when heating to the target temperature, preferably the workpiece is cleaned completely, in the cleaning step. But it is also conceivable that such portions of the workpiece to be cleaned specifically, of which one wishes the finished component improved surface quality.

Advantageous embodiments and modifications of the invention are the dependent claims and the description with reference to the drawings.

According to a further embodiment of the present invention, it is provided that the workpiece is at least partially treated chemically and / or mechanically in the cleaning step. In this case, the selected cleaning method is preferably adapted to the workpiece so that the cleaning leaves the properties of the workpiece substantially unimpaired. As a result, it can be ensured in an advantageous manner that no measures are taken with the cleaning step, which endanger the quality of the later manufactured component.

According to a further embodiment of the present invention, it is provided that the workpiece is at least partially cleaned in the cleaning step in a cleaning bath. In this chemical treatment of the workpiece, the pollutants are bound in an advantageous manner in a liquid of the cleaning bath. It is conceivable that the liquid is exchanged in the cleaning bath by the liquid is guided into the cleaning bath and drained again, for example pumped into a liquid circuit in the cleaning bath and pumped out of the cleaning bath again. By the binding of the pollutants to the liquid is advantageously avoided that the pollutants spread over the air and deposit, for example, to parts of the system. Furthermore, it is conceivable that the wet workpiece is dried in time before heating, for example with hot air.

According to another embodiment of the present invention, it is provided that the workpiece is brushed in the cleaning step. It is conceivable for this mechanical treatment in the cleaning step that the workpiece is brought into contact with the brush and the workpiece is moved in the longitudinal direction, wherein the brush extends substantially along the transverse direction of the workpiece. As a result, the cleaning step can be integrated into the transport of the workpiece to the heating station in an advantageous manner without significant delays in hot or warm forging being achieved by the cleaning step. It is also conceivable that the brush or a system of brushes is arranged at the entrance to the heating station and thereby provided for the cleaning of the workpiece immediately before heating. Alternatively, it is conceivable that the workpiece is cleaned manually. When manually cleaning with a brush evidently noticeable residues can be removed advantageously without much additional effort.

According to a further embodiment of the present invention, it is provided that the workpiece is heated in the cleaning step by a burner to a cleaning temperature. Preferably, the workpiece is heated by one or more burners, preferably on both sides, in particular all-round and evenly. It is conceivable that the burner during the heating along the transverse direction or the longitudinal direction of the workpiece, preferably oscillating, is moved. As a result of the heating already taking place when the workpiece is being cleaned, comparatively little heating energy is required to reach the target temperature in the heating station. Preferably, the cleaning station with its burner is spatially separated from the heating station, in order to avoid that the pollutants, which are in the exhaust gases occurring during heating to the cleaning temperature, deposit on the system components when heating to the target temperature. However, it is also conceivable that the cleaning step is performed in the heating station by the burner responsible for heating first heats the workpiece to the cleaning temperature and then to the target temperature, wherein the target temperature is greater than the cleaning temperature. It is preferably provided that when the workpiece is heated to a cleaning temperature, the ambient air of the workpiece, for example by means of a trigger, is withdrawn to dissipate the pollutants.

According to a further embodiment of the present invention, it is provided that the workpiece is transported or moved during the cleaning step. As a result, the cleaning step can advantageously be integrated into the hot or warm forging of the workpiece so that potential delays are kept as short as possible by the cleaning step. If the cleaning step is a thermal treatment, it is conceivable that the workpiece is guided past a burner with a burner strip along the conveying direction, the burner heating the workpiece during the passage. In particular, the workpiece is moved with a conveyor along a conveying direction and passes successively the cleaning station, the heating station and reaches the forming and / or hardening tool.

According to a further embodiment of the present invention, it is provided that the workpiece is transported in time between the cleaning step and the heating from a cleaning station to a heating station. In the case of thermal cleaning, it is preferably provided that the transport path is bridged in as short a time as possible in order to avoid that the workpiece cools again. In particular, it is conceivable that the conveyor comprises heating elements, which ensure that the workpiece substantially maintains its cleaning temperature. Preferably, the workpiece is transported in such a way that the workpiece is not polluted again or contaminated. In particular, the workpiece is moved with a conveyor along a conveying direction and passes successively the cleaning station, the heating station and reaches the forming and / or hardening tool.

According to a further embodiment of the present invention, it is provided that the Workpiece is heated to the target temperature with another burner when heating for forming and / or curing. Preferably, a temperature between 600 ° C and 900 ° C is selected as the target temperature. If a manganese-boron steel material is preferably used, it is preferably provided that the target temperature above AC3 is reached in order to completely convert the microstructure into austenite. If the target temperature is below AC3 and above AC1, a mixed structure of austenite and ferrite is established. For example, it is provided that the speed at which the workpiece is heated to the cleaning temperature, when using a burner is greater than the speed at which the workpiece is heated to the target temperature, in particular when using a radiant furnace.

According to a further embodiment of the present invention, it is provided that the workpiece is coated with a protective material and / or in particular at least partially coated with a corrosion protection oil in order to prevent corrosion during transport.

According to a further embodiment of the present invention, it is provided that the burner and / or the further burner is operated with a fuel gas and an oxygen-containing gas. Preferably, the heating power of the burner and / or the further burner via the mixing ratio of the fuel gas and the oxygen-containing gas is adjusted. In particular, the maximum temperature in a combustion flame of the burner and / or of the further burner is determined via an oxygen content. In this case, for example, it is provided that a technical oxygen mixture is supplied to the further burner, wherein the oxygen content is preferably greater than 70% or particularly preferably greater than 90%. It is further provided that to achieve the target temperature at a desired speed with which the workpiece is heated, the distance between burner and workpiece, the oxygen content and / or a conveying speed of the conveyed along the conveying direction workpiece are set accordingly.

According to another embodiment of the present invention, it is provided that the workpiece for forming and / or curing in a forming / hardening tool is arranged. Preferably, the forming / hardening tool is at least partially cooled and thereby provides advantageously for example for a partial hardening of the workpiece.

According to a further embodiment of the present invention, it is provided that a sheet metal blank is used as the workpiece. By way of example, the workpiece is a workpiece which is essentially made of a manganese-boron steel, in particular 22MnB5, or a sheet metal plate with a higher carbon content.

Another object of the present invention is a manufacturing plant for hot or warm forging a workpiece, in particular for performing a method according to the invention, wherein the manufacturing plant comprises a cleaning station for cleaning a workpiece and a heating station for heating the cleaned workpiece, which is characterized in that the Cleaning station for thermal treatment of the workpiece is suitable.

Compared to the prior art, the manufacturing plant according to the invention has the advantage that it can be ensured by means of the cleaning station that possible residues are removed from a pretreatment of the workpiece and so the amount of potential pollutants that could affect the quality of the later manufactured component in advantageously reduced.

According to a further embodiment of the present invention, it is provided that the manufacturing plant comprises a conveyor. With the conveyor, the workpiece can be advantageously transported via the cleaning station and the heating station for forming / hardening tool. It is conceivable that the conveyor comprises conveyor rollers.

According to another embodiment of the present invention, it is provided that the cleaning station is structurally separate from the heating station. This can be ensured in an advantageous manner that the dissolved by the heating of the workpiece to the cleaning temperature pollutants are spread through the air and then deposited on the plant components of the heating station.

Further details, features and advantages of the invention will become apparent from the drawings and from the following description of preferred embodiments with reference to the drawings. The drawings illustrate only exemplary embodiments of the invention, which do not limit the inventive concept.

Brief description of the figures

The 1a to 1d show a method of hot or warm forging a workpiece according to an exemplary embodiment of the present invention.

Embodiments of the invention

In the various figures, the same parts are always provided with the same reference numerals and are therefore usually named or mentioned only once in each case.

In the 1a to 1d is a process for hot or warm forging a workpiece 1 according to an exemplary embodiment of the present invention. This is, for example, a structural or chassis component for a motor vehicle, wherein the workpiece 1 as a semi-finished product, in particular in the form of a tailored rolled blank or as in 1 shown as a sheet metal blank, is provided. In this case, the workpiece exists 1 for example, from a material which is at least partially made of a boron-manganese steel, in particular 22MnB5. By hot or warm forging it is preferably provided, the workpiece 1 into its final or final form as a component. In order not to influence the properties and / or the shape of the later manufactured component, the workpiece 1 subjected to a pretreatment. An example of such pretreatment is the coating of the workpiece 1 with a corrosion protection oil or with a lubricant to prevent corrosion during transport of the workpiece. Another example of the pretreatment is the application of a cutting oil to the workpiece 1 in order to facilitate a possible blank cutting in advance of hot or warm forging. Due to the pretreatment and other external circumstances, residues, for example of the anticorrosive oil, the lubricant and / or the cutting oil, remain on the workpiece 1 back. For heating the workpiece required for hot or warm forging 1 would these residues as pollutants lead to damage or impairment, for example in the form of a material embrittlement, the finished component. To avoid such impairments, it is provided that the pretreated workpiece 1 , preferably immediately before heating the workpiece 1 in a warming station 20 , is cleaned in a cleaning step. Preferably, with the cleaning step 60 seconds, preferably 20 seconds, and more preferably 5 seconds before heating of the workpiece 1 began.

As an example of a cleaning step, the embodiment in FIGS 1a to 1d in the 1b a thermal treatment in a cleaning station 10 , In the present embodiment, the cleaning station comprises 10 a burner tape or roller conveyor 4 below that of the burner belt or roller conveyor 4 subsidized workpiece 1 is arranged. Furthermore, the cleaning station 10 preferably a burner 2 on, the upper and / or below the conveyable workpiece 1 is arranged. It is further provided that the burner 2 the workpiece 1 heated to a cleaning temperature. This is the burner 2 operated in particular with a mixture of a burner gas and an oxygen-containing gas. Furthermore occurs when using a burner 2 for heating the workpiece 1 on the cleaning temperature a burner flame 3 from, for example, the workpiece 1 in the cleaning station 10 directly contacted or kept at a distance from the workpiece. In particular, the burner strip or roller conveyor 4 at a position a recess 6 on, so that the burner flame 3 unhindered the workpiece 1 can warm up. Furthermore, it is provided that the workpiece 1 on both sides via a burner 2 is heated to as far as possible the surface of the workpiece 1 to get rid of residues. It is conceivable that the burner 2 along a direction perpendicular to a conveying direction of the burner belt or roller conveyor 4 extending direction, preferably oscillating, moves, with this movement, the heating along a transverse extent of the workpiece 1 to realize. In particular, it is conceivable that the cleaning temperature by determining a conveying speed with which the workpiece 1 from the burner tape or roller conveyor 4 the determination of a distance of the burner 2 from the workpiece 1 and / or by setting an oxygen content of the fuel gas mixed with the oxygen-containing gas is set or realized. Furthermore, it is preferably provided that the burner flame 3 of the burner 2 in the cleaning station 10 the workpiece 1 homogeneous, ie evenly along the surface, heated. Furthermore, it is conceivable that the cleaning station 10 includes an exhaust system to dissipate the generated during the thermal treatment of waste gases with the exhaust system. This makes it possible to avoid that the pollutants contained in the waste gas on the plant components of the cleaning station 10 drop. To further avoid that the pollutants contained in the waste gas deposit on plant components, for example, in a warming station 20 are arranged, in the illustrated embodiment, the cleaning station 10 structurally separate from the heating station 20 as it is in 1c will be shown.

In 1c is a warming station 20 in the form of a furnace 5 shown, wherein the workpiece 1 for heating within the, preferably closed, oven 5 is arranged. In particular, it is provided that the target temperature is greater than the cleaning temperature. Furthermore, it is provided that the workpiece 1 in the warming station 20 is heated with a further burner or by means of radiation, wherein the further burner is preferably operated with a mixture of a fuel gas and an oxygen-containing gas. In particular, the other burner is in the heating station 20 with a technical oxygen whose oxygen content is preferably greater than 75%, particularly preferably greater than 90% operated. For example, the heating in the heating station 20 be used for adjusting material properties of the later manufactured component. For example, the workpiece becomes 1 heated at least in a first region to a temperature below AC3, in particular below AC1, in order to avoid complete austenitization and / or at least in a second region heated to a temperature above AC3 to cause austenitization. It is also conceivable that the workpiece 1 precoated in time after the cleaning step and before heating to pre-coat for alloy layer formation on the surface of the workpiece 1 to care. Furthermore, it is provided that the cleaning station 10 with the warming station 20 via a conveyor 4 connected is. In particular, the cleaned workpiece 1 from the conveyor 4 in the oven 5 promoted.

After heating the cleaned tool piece 1 it is intended that the workpiece 1 in a, preferably cooled, forming and / or hardening tool 30 is inserted and reformed there and / or cured, as it is in 1d is shown. In particular, the forming and / or hardening tool comprises 30 a tool mold that is matched with the component to be manufactured. Furthermore, it is conceivable that the conveyor the workpiece 1 along the conveying direction in a production plant via the cleaning station 10 and the warming station 20 in the forming and / or hardening tool 30 promoted.

LIST OF REFERENCE NUMBERS

1

workpiece

2

burner

3

burner flame

4

Conveyor, burner belt, roller conveyor

5

oven

6

recess

10

cleaning station

20

heating station

30

Forming and / or hardening tool

Claims (15)

Method for hot or warm forging a workpiece ( 1 ) comprising the following method steps: providing the workpiece ( 1 ), at least partially pretreating the workpiece ( 1 ), at least partially heating the workpiece ( 1 ) to a target temperature in a heating station ( 20 ) and at least partially reshaping and / or hardening the workpiece ( 1 ), wherein temporally between the pretreatment and the heating of the workpiece ( 1 ) the workpiece ( 1 ) is at least partially cleaned in a cleaning step, characterized in that the workpiece ( 1 ) is treated at least partially thermally in the cleaning step. Method according to claim 1, wherein the workpiece ( 1 ) is treated at least partially chemically and / or mechanically in the cleaning step. Method according to one of the preceding claims, wherein the workpiece ( 1 ) is at least partially cleaned in the cleaning step in a cleaning bath. Method according to one of the preceding claims, wherein the workpiece ( 1 ) is brushed in the cleaning step. Method according to one of the preceding claims, wherein the workpiece ( 1 ) in the cleaning step of a burner ( 2 ) is heated to a cleaning temperature. Method according to one of the preceding claims, wherein the workpiece ( 1 ) is transported during the cleaning step. Method according to one of the preceding claims, wherein the workpiece ( 1 ) between the cleaning step and the heating of a cleaning station ( 10 ) to a warming station ( 20 ) is transported. Method according to one of the preceding claims, wherein the workpiece ( 1 ) is heated to the target temperature with another burner. Method according to one of the preceding claims, wherein the workpiece ( 1 ) is coated with a protective material and / or coated with a corrosion protection oil. Method according to one of claims 5 to 9, wherein the burner ( 2 ) and / or the further burner is operated with a fuel gas and an oxygen-containing gas. Method according to one of the preceding claims, wherein the workpiece ( 1 ) for the Forming and / or hardening in a forming and / or hardening tool ( 30 ) is arranged. Method according to one of the preceding claims, wherein as a workpiece ( 1 ) a sheet metal blank is used. Manufacturing plant for hot or warm forging a workpiece ( 1 ) for carrying out a method according to one of the preceding claims, wherein the manufacturing plant has a cleaning station ( 10 ) for cleaning a workpiece and a heating station ( 20 ) for heating the cleaned workpiece, characterized in that the cleaning station ( 10 ) for the thermal treatment of the workpiece ( 1 ) suitable is. Production plant according to claim 13, wherein the production plant has a conveyor ( 4 ). Production plant according to claim 13 or 14, wherein the cleaning station ( 10 ) is structurally separated from the heating station ( 20 ).

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