Device and method for sheet metal forming in surface critical panels

Description

TECHNICAL FIELD

[0001] The present invention relates to a sheet metal forming apparatus and method for preventing surface defects in a perimeter area around a local depression in a larger forming area. Such an apparatus is defined in the preamble of claim 1 (see for example JP-A-58 157 531).

BACKGROUND

[0002] Current methods of sheet metal forming may result in minor surface defects around local depressions or abrupt form changes. These defects are particularly undesirable in so called surface critical areas, which may for example be found on automobile body panels. An example of such a surface critical area is a door handle depression in an outer car door panel. Any surface defects in this area will lead to either a rejection of the panel or extensive and costly surface refinishing work.

[0003] The surface defects occur as a result of substantial local variations in tension around the depression as the metal is formed, which in current methods of production often leads to several permanent defects, in the form of uneven surfaces, left after the sheet metal springs back as the formed panel is released and ejected from the forming apparatus.

SUMMARY OF THE INVENTION

[0004] The above mentioned problem is solved by the invention providing a sheet metal forming apparatus for preventing surface defects in a perimeter area around a local depression in a larger forming area with the features of claim 1.

[0005] In an advantageous embodiment of the invention, the forming of said local depression is adapted to be completed when the second main forming body is at a distance not exceeding 10 mm from its final abutment position.

[0006] In a well adapted embodiment, the forming of said local depression is adapted to be completed when the second main forming body is at a distance not exceeding 4 mm from its final abutment position.

[0007] In a suitable embodiment, the first main forming body is a stationary die and the second main forming body is a movable punch.

[0008] Advantageously, the sub-forming member is adapted to remain in its retracted position during ejection of a finished sheet metal part.

[0009] In a well functioning embodiment, the protrusion distance of the sub-forming member in its protruding position is adjustable by means of an exchangeable spacer element seated between the first main forming body and an abutment flange provided on the sub-forming member.

[0010] In an advantageous embodiment, the spring element is a gas spring assembly. However, it may alternatively be of another suitable kind, such as a coil spring assembly.

[0011] The invention also includes a sheet metal forming method for preventing surface defects in a perimeter area around a local depression in a larger forming area. The method includes the use of a forming apparatus comprising a first main forming body and a second main forming body, at least one of said main forming bodies being movable towards the other for forming a sheet metal blank there-between into a desired shape, whereby the method comprises

• a first phase, during which the local depression is formed between the second main forming body and a separate sub-forming member provided in the first main forming body at a position corresponding to said local depression, said sub-forming member being movably arranged between a protruding position, in which a form surface on the sub-forming member protrudes relative to a surrounding form surface of the first main forming body, and a retracted position, in which the form surface on the sub-forming member is level with said surrounding form surface, said sub-forming member being biased towards its protruding position by means of a spring element, in such a way that said local depression is completed before the second main forming body reaches a final abutment position and before the sub-forming member reaches its retracted position, and
• a second phase, during which the sheet metal blank within said perimeter area is stretched radially outwards around the local depression due to continued travel of the sub-forming member immediately before the second main forming body reaches a final abutment position and before the sub-forming member reaches its retracted position.

[0012] Further features and advantages of the invention will be described in the detailed description of embodiments below.

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] The invention will now be described in greater detail by way of example only and with reference to the attached drawings, in which

Fig. 1 shows a schematic illustration of surface defects around a door handle depression as produced with current production methods;

Fig. 2 shows a schematic cross-sectional view of a sheet metal forming apparatus according to an embodiment of the invention. The view shows the apparatus in an initial position, wherein a sheet metal blank to be formed has been inserted between the first and second main forming bodies;

Fig. 3 shows a schematic cross-sectional view of the sheet metal forming apparatus as seen in Fig. 2, only in an intermediate position, in which the depression is completed before the second main forming body reaches a final abutment position and before the sub-forming member reaches its retracted position, and

Fig. 4 finally shows a schematic cross-sectional view of the sheet metal forming apparatus as seen in Figs 2 and 3, only in a final position, in which the second main forming body has reached a final abutment position and the sub-forming member is in its retracted position.

DESCRIPTION OF EXEMPLIFYING EMBODIMENTS

[0014] In Fig. 1, part of a car door panel 1 is shown as an example of surface defects 2 around a door handle depression 4, as produced with current, prior art production methods. The surface defects 2 are drawn with dashed lines in Fig. 1 and - as described initially - frequently occurs as a result of substantial local variations in tension around the depression as the metal is formed. More particularly, the undesired surface defects 2 are in the form of uneven surfaces which are left after the sheet metal springs back as the formed car door panel 1 is released and ejected from the prior art forming apparatus (not shown). It is the general object of the present invention to prevent such surface defects 2 from occurring in a perimeter area 6 around a local depression 4 - in this case the door handle depression - in a larger forming area 1 (i.e. in this case the car door panel). The perimeter area 6 is loosely shown in Fig. 1 with bold face dash-dotted lines.

[0015] Fig. 2 shows a schematic cross-sectional view of a sheet metal forming apparatus 8 according to an exemplifying embodiment of the present invention. The view in Fig. 2 shows the apparatus 8 in an initial position, wherein a sheet metal blank 10 to be formed has been inserted between a first main forming body 12 and a second main forming body 14. In the widest meaning, at least one of said main forming bodies 12, 14 is movably arranged in a known manner by means of hydraulic or pneumatic actuators (not shown) towards the other for forming the sheet metal blank 10 there-between into a desired shape. However, in the shown exemplifying embodiment, the first main forming body 12 is a stationary die and the second main forming body 14 is a movable punch positioned directly above the die. Thus, in this case, the forming movement is vertical, which is generally the most common arrangement due to the weight and size of the forming apparatus 8. In the automotive industry, the most common material for car body panels is still steel sheet material, but it should be understood that other metals, such as aluminium may alternatively be used as the sheet metal blank 10. The thickness of the sheet metal blank 10 is preferably uniform and commonly ranging between 0.5 - 1.5 mm, depending on application.

[0016] The skilled man in the art will recognise that the shown orientation and labelling of constituent parts, such as for example the first main forming body 12 and the second main forming body 14, are not used here in a limiting sense. Alternatively - where appropriate - the first main forming body 12 may thus be referred to as a lower die, whilst the second main forming body 14 may be referred to as an upper punch.

[0017] In a known manner, the sheet metal blank 10 is held in place during the forming by means of a blank holder 16 which is retractable after the forming of the sheet metal blank 10 is finished. Since this is a well-established feature, it will not be discussed in further detail here.

[0018] According to the invention, a separate, movable sub-forming member 16 is provided in the first main forming body 12 at a position corresponding to the local depression 4. In Figs. 2-4, the local depression 4 constitutes a door handle depression in a car door panel 1, such as the one shown in Fig. 1. It should be noted that the apparatus and method is specially suited for application on so called surface critical areas, such as automobile body panels (in this case) or surfaces on other products where high demands on an even finished surface apply.

[0019] For forming the local depression 4, a form recess 20 is formed in the second main forming body 14 (i.e. the punch in this case), which recess 20 is adapted for engagement with a corresponding projection 22 in a form surface 24 on the movable sub-forming member 18.

[0020] The sub-forming member 18 is movably arranged between a protruding position, as shown in Figs 2 and 3, and a retracted position, as shown in Fig. 4. The significance of these two positions will be made readily apparent below.

[0021] In the protruding position, the form surface 24 on the sub-forming member 18 protrudes relative to a surrounding form surface 26 of the first main forming body 12, i.e. upwards in Fig. 2.

[0022] In the retracted position, the form surface 24 on the sub-forming member 18 is level with the surrounding form surface 26.

[0023] A further feature of the invention is that the sub-forming member 18 is biased towards its protruding position by means of a spring element 28. The spring element will be further described below.

[0024] In a first phase according to the invention, the forming of said local depression 4 is completed - i.e. fully formed - before the second main forming body 14 reaches a final abutment position and before the sub-forming member 18 reaches its retracted position. Then, in a second phase, the sheet metal blank 10 within said perimeter area 6 is stretched radially outwards around the local depression 4 due to continued travel of the sub-forming member 18 immediately before the second main forming body 14 reaches its final abutment position and before the sub-forming member 18 reaches its retracted position. The term immediately here corresponds to the last few millimeters - or thereabout - of the sub-forming member's 18 downward travel.

[0025] The sheet metal forming method for use with the above-described apparatus 8, thus involves:

• a first phase, during which the local depression 4 is formed between the second main forming body 14 and the separate sub-forming member 18, and
• a second phase, during which the sheet metal blank 10 within said perimeter area 6 is stretched radially outwards around the local depression 4 due to continued travel of the sub-forming member 18 immediately before the second main forming body 14 reaches a final abutment position and before the sub-forming member 18 reaches its retracted position.

[0026] In Fig. 3, the forming of the local depression 4 has just been completed - thus marking the end of the first phase - whereby the sub-forming member 18 begins to move downwards whilst the spring element 28 is compressed - urged by the second main forming body 14.

[0027] In Fig. 4, the second main forming body 14 has reached its final abutment position and the sub-forming member 18 has reached its retracted position, in which the spring element 28 is now fully compressed. Thus, the second phase, which may also be referred to as a stretching phase, is now completed. The sheet metal blank 10 within said perimeter area 6 is - as described above - stretched radially outwards around the local depression 4, resulting in a more even tension around the local depression 4, in comparison with prior art forming apparatuses. This even tension prevents the undesired forming of surface defects 2 during spring back in the perimeter area 6 around the local depression 4 in the larger forming area 1 (In this case the car door panel, as illustrated in Fig. 1).

[0028] Suitably, the forming of said local depression 4 is completed when the second main forming body 14 is at a distance not exceeding 10 mm from its final abutment position. Succesful tests have been performed at distances ranging from 1-10 mm. More preferably, said distance does not exceed 4 mm from its final abutment position. In an advantageous embodiment in the shown door handle depression application, this distance is preferably in close proximity of 3 mm.

[0029] In the shown embodiment, the spring element 28 is a gas spring assembly, known per se. However, it should be noted that the spring element 28 may alternatively be a coil spring assembly or an assembly comprising an elastically compressible cushion element (not shown). The spring element 28 comprises a cylinder housing 30 and a piston 32, which piston is arranged in the cylinder housing 30 for movement in the axial direction of the same, i.e. vertically in the shown exemplifying Figs. 2-4. The cylinder housing 30 is fixedly attached to the first main forming body 12, whilst a distal end 34 of the piston is attached to a rear face 36 of the sub-forming member 18. Preferably, the spring element 28 is of a controllable type, so that the sub-forming member 18 is adapted to remain in its retracted position (as seen in Fig. 4) during ejection of a finished sheet metal part. This is achieved by locking the piston 32 in a bottom position and controlling the return stroke of the piston 32. The spring element 28 is controlled by a control valve unit 44, which is connected to the cylinder housing 30 via gas & air control conduits 46. The control valve unit 44 is further connected sources of pressurized air and gas (not shown) via gas & air supply conduits 48. For the sake of clarity, the control valve unit 44, the gas & air control conduits 46 and the gas & air supply conduits 48 are simplified in Figs. 2-4, and are drawn schematically.

[0030] In one embodiment of the invention, the spring element 28 biases the sub-forming member 18 with a force (upwardly directed in Figs. 2-4) which is sufficient to hold the sub-forming member 18 in a fixed axial position during the first phase until the forming of the local depression 4 is completed and which is then overcome by the second main forming body 14, thus initiating continued travel in the second phase when the stretching action takes place. In an alternative embodiment, the biasing force is slightly lower, so as to allow continuous downward travel of the sub-forming member 18 also during the first phase, i.e. during the forming of the local depression 4.

[0031] With reference again to Fig. 2, the sub-forming member 18 is axially movable within a bore 38 in the first main forming body 12. In the shown embodiment, the protrusion distance D of the sub-forming member 18 in its protruding position may be adjusted by means of an exchangeable annular spacer element 40 seated between the first main forming body 12 and an abutment flange 42 provided on the sub-forming member 18. The spacer element 40 is preferably made of steel, but may also be made of other suitable materials. By the term protrusion distance, D, is meant the distance between the form surface on the sub-forming member 18 and the surrounding form surface 26 of the first main forming body 12, in the axial direction of the sub-forming member 18. If the bias-force is adjusted so as to allow continuous downward travel of the sub-forming member 18 also during the first phase, i.e. during the forming of the local depression 4, the sub-forming member 18 correspondingly has an initial protrusion distance which will accommodate for sufficient axial travel both for the first phase and the second phase of operation..

[0032] Finally, it is to be understood that the invention is by no means limited to the embodiments described above, and may be varied freely within the scope of the appended claims. For example, the first main forming body may be provided with several separate sub-forming members 18 in conjunction with respective local depressions 4 in one large forming area 1.

LIST OF REFERENCE NUMERALS:

[0033] 

1.

Car door panel (or Larger forming area)

2.

Surface defects (resulting from Prior Art methods)

4.

Local depression (e.g. door handle depression)

6.

Perimeter area around local depression

8.

Sheet metal forming apparatus

10.

Sheet metal blank

12.

First main forming body

14.

Second main forming body

16.

Blank holder

18.

Sub-forming member

20.

Recess in second main forming member

22.

Projection on sub-forming member

24.

Form surface on sub-forming member

26.

Surrounding form surface on first forming member

28.

Spring element

30.

Piston

32.

Cylinder housing

34.

Distal end of piston

36.

Rear face of sub-forming member

38.

Bore for sub-forming member

40.

Spacer element

42.

Abutment flange

44.

Control valve unit

46.

Gas & air control conduits

48.

Gas & air supply conduits

D:

Protrusion distance for sub-forming member

Claims

1. Sheet metal forming apparatus (8) for preventing surface defects (2) in a perimeter area (6) around a local depression (4) in a larger forming area (1), said apparatus (8) comprising a first main forming body (12) and a second main forming body (14), at least one of said main forming bodies (12, 14) being movable towards the other for forming a sheet metal blank (10) there-between into a desired shape, and a separate sub-forming member (18) provided at a position corresponding to said local depression (4),
characterized in that

- said separate sub-forming member (18) is provided in the first main forming body (12), in that

- said sub-forming member (18) being movably arranged between;

- a protruding position, in which a form surface (24) on the sub-forming member (18) protrudes relative to a surrounding form surface (26) of the first main forming body (12), and

- a retracted position, in which the form surface (24) on the sub-forming member (18) is level with said surrounding form surface (26),

- said sub-forming member (18) being biased towards its protruding position by means of a spring element (28), the arrangement of the first and second forming bodies and of the sub-forming member (18) being such that

in a first phase, the forming of said local depression (4) is completed before the second main forming body (14) reaches a final abutment position and before the sub-forming member (18) reaches its retracted position, and
whereby, in a second phase, the sheet metal blank (10) within said perimeter area (6) is stretched radially outwards around the local depression (4) due to continued travel of the sub-forming member (18) immediately before the second main forming body (14) reaches its final abutment position and before the sub-forming member (18) reaches its retracted position.

2. Apparatus (8) according to claim 1, characterized in that the forming of said local depression (4) is adapted to be completed when the second main forming body (14) is at a distance not exceeding 10 mm from its final abutment position.

3. Apparatus (8) according to claim 2, characterized in that the forming of said local depression (4) is adapted to be completed when the second main forming body (14) is at a distance not exceeding 4 mm from its final abutment position.

4. Apparatus (8) according to claim 1, 2 or 3, characterized in that said first main forming body (12) is a stationary die and that said second main forming body (14) is a movable punch.

5. Apparatus (8) according to any of the preceding claims, characterized in that the sub-forming member (18) is adapted to remain in its retracted position during ejection of a finished sheet metal part.

6. Apparatus (8) according to any of the preceding claims, characterized in that the protrusion distance (D) of the sub-forming member (18) in its protruding position is adjustable by means of an exchangeable spacer element (40) seated between the first main forming body (12) and an abutment flange (42) provided on the sub-forming member (18).

7. Apparatus (8) according to any of the preceding claims, characterized in that the spring element (28) is a gas spring assembly.

8. Apparatus (8) according to any of claims 1 to 7, characterized in that the spring element (28) is a coil spring assembly.

9. Sheet metal forming method for preventing surface defects (2) in a perimeter area (6) around a local depression (4) in a larger forming area (1), said method including the use of a forming apparatus (8) comprising a first main forming body (12) and a second main forming body (14), at least one of said main forming bodies (12, 14) being movable towards the other for forming a sheet metal blank (10) there-between into a desired shape, whereby the method comprises

- a first phase, during which the local depression (4) is formed between the second main forming body (14) and a separate sub-forming member (18) provided in the first main forming body (12) at a position corresponding to said local depression (4), said sub-forming member (18) being movably arranged between a protruding position, in which a form surface (20) on the sub-forming member (18) protrudes relative to a surrounding form surface (24) of the first main forming body (12), and a retracted position, in which the form surface (24) on the sub-forming member (18) is level with said surrounding form surface (26), said sub-forming member (18) being biased towards its protruding position by means of a spring element (28), in such a way that said local depression (4) is completed before the second main forming body (14) reaches a final abutment position and before the sub-forming member (18) reaches its retracted position, and

- a second phase, during which the sheet metal blank (10) within said perimeter area (6) is stretched radially outwards around the local depression (4) due to continued travel of the sub-forming member (18) immediately before the second main forming body (14) reaches a final abutment position and before the sub-forming member (18) reaches its retracted position.

10. Method according to claim 9, characterized in that the sub-forming member (18) remains in its retracted position during ejection of a finished sheet metal part.

Ansprüche

1. Blechformungsvorrichtung (8) zum Verhindern von Oberflächendefekten (2) in einem Umfangsbereich (6) um eine lokale Vertiefung (4) in einem größeren Formungsbereich (1), wobei die Vorrichtung (8) einen ersten Hauptformungskörper (12) und einen zweiten Hauptformungskörper (14), wovon wenigstens einer relativ zu dem anderen beweglich ist, um einen Blechrohling (10) dazwischen in eine gewünschte Form auszuformen, und ein getrenntes Unterformungselement (18), das an einer der lokalen Vertiefung (4) entsprechenden Position vorgesehen ist, umfasst,
dadurch gekennzeichnet, dass

- das getrennte Unterformungselement (18) in dem ersten Hauptformungskörper (12) vorgesehen ist, dass

- das Unterformungselement (18) beweglich angeordnet ist zwischen:

- einer vorstehenden Position, in der eine Formungsoberfläche (24) an dem Unterformungselement (18) in Bezug auf eine umgebende Formungsoberfläche (26) des ersten Hauptformungskörpers (12) vorsteht, und

- einer zurückgezogenen Position, in der die Formungsoberfläche (24) an dem Unterformungselement (18) mit der umgebenden Formungsoberfläche (26) bündig ist,

- wobei das Unterformungselement (18) mittels eines Federelements (28) in seine vorstehende Position vorbelastet ist, wobei die Anordnung des ersten und des zweiten Formungskörpers und des Unterformungselements (18) derart ist, dass

in einer ersten Phase die Formung der lokalen Vertiefung (4) abgeschlossen wird, bevor der zweite Hauptformungskörper (14) eine endgültige Anschlagposition erreicht und bevor das Unterformungselement (18) seine zurückgezogene Position erreicht, und
in einer zweiten Phase der Blechrohling (10) aufgrund der fortgesetzten Bewegung des Unterformungselements (18) innerhalb des Umfangsbereichs (6) radial nach außen um die lokale Vertiefung (4) gedehnt wird, unmittelbar bevor der zweite Hauptformungskörper (14) seine endgültige Anschlagposition erreicht und bevor das Unterformungselement (18) seine zurückgezogene Position erreicht.

2. Vorrichtung (8) nach Anspruch 1, dadurch gekennzeichnet, dass die Formung der lokalen Vertiefung (4) abgeschlossen werden kann, wenn sich der zweite Hauptformungskörper (14) in einem Abstand von nicht mehr als 10 mm von seiner endgültige Anschlagposition befindet.

3. Vorrichtung (8) nach Anspruch 2, dadurch gekennzeichnet, dass die Bildung der lokalen Vertiefung (4) abgeschlossen werden kann, wenn sich der zweite Hauptformungskörper (14) in einem Abstand von nicht mehr als 4 mm von seiner endgültigen Anschlagposition befindet.

4. Vorrichtung (8) nach Anspruch 1, 2 oder 3, dadurch gekennzeichnet, dass der erste Hauptformungskörper (12) ein stationärer Stempel ist und der zweite Hauptformungskörper (14) ein beweglicher Oberstempel ist.

5. Vorrichtung (8) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das Unterformungselement (18) so beschaffen ist, dass es während des Auswerfens eines fertig gestellten Blechteils in seiner zurückgezogenen Position bleibt.

6. Vorrichtung (8) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass die Strecke (D) des Vorsprungs des Unterformungselements (18) in seiner vorstehenden Position mittels eines austauschbaren Abstandshalterelements (40), das zwischen dem ersten Hauptformungskörper (12) und einem an dem Unterformungselement (18) vorgesehenen Anschlagflansch (42) sitzt, einstellbar ist.

7. Vorrichtung (8) nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das Federelement (28) eine Gasfederbaueinheit ist.

8. Vorrichtung (8) nach einem der Ansprüche 1 bis 7, dadurch gekennzeichnet, dass das Federelement (28) eine Schraubenfederbaueinheit ist.

9. Blechformungsverfahren zum Verhindern von Oberflächendefekten (2) in einem Umfangsbereich (6) um eine lokale Vertiefung (4) in einem größeren Formungsbereich (1), wobei das Verfahren das Verwenden einer Formungsvorrichtung (8) umfasst, die einen ersten Hauptformungskörper (12) und einen zweiten Hauptformungskörper (14) aufweist, wovon wenigstens einer relativ zu dem anderen beweglich ist, um einen dazwischen befindlichen Blechrohling (10) in eine gewünschte Form auszuformen, wobei das Verfahren umfasst:

- eine erste Phase, in der die lokale Vertiefung (4) zwischen dem zweiten Hauptformungskörper (14) und einem in dem ersten Hauptformungskörper (12) an einer der lokalen Vertiefung (4) entsprechenden Position vorgesehenen getrennten Unterformungselement (18) gebildet wird, wobei das Unterformungselement (18) so beschaffen ist, dass es zwischen einer vorstehenden Position, in der eine Formungsoberfläche (20) an dem Unterformungselement (18) in Bezug auf eine umgebende Formungsoberfläche (24) des ersten Hauptformungskörpers (12) vorsteht, und einer zurückgezogenen Position, in der die Formungsoberfläche (24) an dem Unterformungselement (18) mit der umgebenden Formungsoberfläche (26) bündig ist, beweglich ist, wobei das Unterformungselement (18) mittels eines Federelements (28) in seine vorstehende Position vorbelastet ist, derart, dass die lokale Vertiefung (4) abgeschlossen wird, bevor der zweite Hauptformungskörper (14) eine endgültige Anschlagposition erreicht und bevor das Unterformungselement (18) seine zurückgezogene Position erreicht, und

- eine zweite Phase, in der der Blechrohling (10) in dem Umfangsbereich (6) aufgrund einer fortgesetzten Bewegung des Unterformungselements (18) radial nach außen um die lokale Vertiefung (4) gedehnt wird, unmittelbar bevor der zweite Hauptformungskörper (14) eine endgültige Anschlagposition erreicht und bevor das Unterformungselement (18) seine zurückgezogene Position erreicht.

10. Verfahren nach Anspruch 9, dadurch gekennzeichnet, dass das Unterformungselement (18) während des Auswerfens eines fertig gestellten Blechteils in seiner zurückgezogenen Position bleibt.

Revendications

1. Appareil de formage de métal en feuille (8) pour empêcher des défauts de surface (2) dans une aire de périmètre (6) autour d'un enfoncement local (4) dans une aire de formage plus grande (1), ledit appareil (8) comportant un premier corps de formage principal (12) et un second corps de formage principal (14), au moins un desdits corps de formage principaux (12, 14) pouvant se déplacer vers l'autre afin de former une ébauche de métal en feuille (10) entre eux en une forme souhaitée, et un élément de sous-formage séparé (18), agencé dans une position correspondant audit enfoncement local (4),
caractérisé en ce que

- ledit élément de sous-formage séparé (18) est agencé dans le premier corps de formage principal (12), et en ce que

- ledit élément de sous-formage (18) est agencé de manière mobile entre :

- une position en saillie, dans laquelle une surface de forme (24) sur l'élément de sous-formage (18) fait saillie par rapport à une surface de forme environnante (26) du premier corps de formage principal (12), et

- une position rétractée, dans laquelle la surface de forme (24) sur l'élément de sous-formage (18) est à niveau par rapport à ladite surface de forme environnante (26),

- ledit élément de sous-formage (18) étant rappelé vers sa position en saillie par l'intermédiaire d'un élément formant ressort (28), l'agencement des premier et second corps de formage et de l'élément de sous-formage (18) étant tel que

dans une première phase, le formage dudit enfoncement local (4) est achevé avant que le second corps de formage principal (14) n'atteigne une position finale en butée, et avant que l'élément de sous-formage (18) n'atteigne sa position rétractée, et
de sorte que dans une seconde phase, l'ébauche de métal en feuille (10) dans ladite aire de périmètre (6) est étirée radicalement vers l'extérieur autour de l'enfoncement local (4) du fait du déplacement continu de l'élément de sous-formage (18) immédiatement avant que le second corps de formage principal (14) n'atteigne sa position finale en butée, et avant que l'élément de sous-formage (18) n'atteigne sa position rétractée.

2. Appareil (8) selon la revendication 1, caractérisé en ce que le formage dudit enfoncement local (4) est adapté pour être achevé lorsque le second corps de formage principal (14) est à une distance n'excédant pas 10 mm de sa position finale en butée.

3. Appareil (8) selon la revendication 2, caractérisé en ce que le formage dudit enfoncement local (4) est adapté pour être achevé lorsque le second corps de formage principal (14) est à une distance n'excédant pas 4 mm de sa position finale en butée.

4. Appareil (8) selon la revendication 1, 2, ou 3, caractérisé en ce que ledit premier corps de formage principal (12) est une matrice stationnaire, et en ce que ledit second corps de formage principal (14) est un poinçon mobile.

5. Appareil (8) selon l'une quelconque des revendications précédentes, caractérisé en ce que l'élément de sous-formage (18) est adapté pour demeurer dans sa position rétractée pendant l'éjection d'une pièce de métal en feuille finie.

6. Appareil (8) selon l'une quelconque des revendications précédentes, caractérisé en ce que la distance de saillie (D) de l'élément de sous-formage (18) dans sa position en saillie est ajustable par l'intermédiaire d'un élément formant entretoise échangeable (40), positionné entre le premier corps de formage principal (12) et un rebord de butée (42), agencé sur l'élément de sous-formage (18).

7. Appareil (8) selon l'une quelconque des revendications précédentes, caractérisé en ce que l'élément formant ressort (28) est un ensemble formant ressort à gaz.

8. Appareil (8) selon l'une quelconque des revendications 1 à 7, caractérisé en ce que l'élément formant ressort (28) est un ensemble formant ressort hélicoïdal.

9. Procédé de formage de métal en feuille pour empêcher les défauts de surface (2) dans une aire de périmètre (6) autour d'un enfoncement local (4) dans une aire de formage plus grande (1), ledit procédé comprenant l'utilisation d'un appareil de formage (8) comportant un premier corps de formage principal (12) et un second corps de formage principal (14), au moins un desdits corps de formage principaux (12, 14) pouvant se déplacer vers l'autre afin de former une ébauche de métal en feuille (10) entre eux en une forme souhaitée, dans lequel le procédé comporte :

- une première phase, pendant laquelle l'enfoncement local (4) est formé entre le second corps de formage principal (14) et un élément de sous-formage séparé (18) agencé dans le premier corps de formage principal (12) dans une position correspondant audit enfoncement local (4), ledit élément de sous-formage (18) étant agencé de manière mobile entre une position en saillie, dans laquelle une surface de forme (20) sur l'élément de sous-formage (18) fait saillie par rapport à une surface de forme environnante (24) du premier corps de formage principal (12), et une position rétractée, dans laquelle la surface de forme (24) sur l'élément de sous-formage (18) est à niveau par rapport à ladite surface de forme environnante (26), ledit élément de sous-formage (18) étant rappelé vers sa position en saillie par l'intermédiaire d'un élément formant ressort (28), de telle sorte que ledit enfoncement local (4) est achevé avant que le second corps de formage principal (14) n'atteigne une position finale en butée, et avant que l'élément de sous-formage (18) n'atteigne sa position rétractée, et

- une seconde phase, pendant laquelle l'ébauche de métal en feuille (10) dans ladite aire de périmètre (6) est étirée radicalement vers l'extérieur autour de l'enfoncement local (4) du fait du déplacement continu de l'élément de sous-formage (18) immédiatement avant que le second corps de formage principal (14) n'atteigne sa position fmale en butée, et avant que l'élément de sous-formage (18) n'atteigne sa position rétractée.

10. Procédé selon la revendication 9, caractérisé en ce que l'élément de sous-formage (18) demeure dans sa position rétractée pendant l'éjection d'une pièce de métal en feuille finie.

Drawing