WO2020195593A1 - プレス成形方法 - Google Patents
プレス成形方法 Download PDFInfo
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- WO2020195593A1 WO2020195593A1 PCT/JP2020/008795 JP2020008795W WO2020195593A1 WO 2020195593 A1 WO2020195593 A1 WO 2020195593A1 JP 2020008795 W JP2020008795 W JP 2020008795W WO 2020195593 A1 WO2020195593 A1 WO 2020195593A1
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- curved portion
- draw
- parallel
- main body
- outer curved
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D22/00—Shaping without cutting, by stamping, spinning, or deep-drawing
- B21D22/20—Deep-drawing
- B21D22/26—Deep-drawing for making peculiarly, e.g. irregularly, shaped articles
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D53/00—Making other particular articles
- B21D53/88—Making other particular articles other parts for vehicles, e.g. cowlings, mudguards
Definitions
- the present invention relates to a press forming method for forming a stepped portion on a work having a character line.
- the outer panel of an automobile door is molded so that the outer peripheral edge is folded into the main body that constitutes the exterior (see Japanese Patent Publication No. 62-57406).
- a step portion that overlaps the parting portion on the rear side of the front door is provided. This step portion prevents the front door from entering the cabin and preventing the door from opening when another vehicle collides with the side surface of the vehicle.
- the present invention solves the above-mentioned problems, and significantly improves the yield at the time of manufacturing by satisfactorily suppressing the occurrence of wrinkles and cracks when forming a stepped portion on a panel having a character line. It is an object of the present invention to provide a press molding method which can be used.
- one aspect of the present invention is a press forming method for forming a step portion at an end portion of a main body portion having a character line, and the main body portion is formed via a first outer curved portion.
- the character line is formed on a first throttle step portion having a continuous first inclined portion and a first parallel portion connected to the first inclined portion via a first inner curved portion and extending in parallel with the main body portion.
- a second draw step in which a second drawing step portion having a second parallel portion connected to the portion and extending in parallel with the main body portion is drawn from the first drawing step portion, and the step after the second draw step. It has a finishing step of completing the portion, and in the first draw step, the first outer curved portion is provided outside the second outer curved portion with respect to an extension region located on an extension line of the character line.
- the first parallel portion is molded to the same depth as the drawing depth of the second parallel portion, and in the second draw step, the curvature of the extension region is larger than that of the first inner curved portion.
- the large second inner curved portion is formed.
- a stepped portion is satisfactorily formed without causing wrinkles or cracks. Can be done. That is, since the positions of the first outer curved portion molded in the first draw step and the second outer curved portion molded in the second draw step are displaced, it is possible to prevent the plate material at a specific portion from becoming extremely thin in the extension region. Be done. Therefore, cracking in the extension region is suppressed. Further, the first parallel portion formed in the first draw step has the same depth as the second parallel portion, and the curvature of the second inner curved portion is formed to be large in the second draw step, so that the second inner side in the second draw step is formed.
- the curved part can be brought closer to the stepped part of the completed form. Therefore, the shrinkage of the second inner curved portion in the finishing process is reduced, and the occurrence of wrinkles in the extension region is suppressed. Therefore, the press forming method can significantly improve the yield at the time of manufacturing.
- FIG. 1A is a plan view showing an outer panel of a rear door molded by the press molding method according to the embodiment of the present invention.
- FIG. 1B is a sectional view taken along line IB-IB of FIG. 1A. It is a flowchart which shows the process of the manufacturing method. It is a perspective view which shows the 1st drawing step part formed by the 1st draw process.
- FIG. 4A is a cross-sectional view showing a first draw step corresponding to the peripheral region of the IVA-IVA line of FIG.
- FIG. 4B is a cross-sectional view showing a first draw step corresponding to the extension region of the IVB-IVB line of FIG. It is a perspective view which shows the 2nd drawing step part formed by the 2nd draw process.
- FIG. 1A is a plan view showing an outer panel of a rear door molded by the press molding method according to the embodiment of the present invention.
- FIG. 1B is a sectional view taken along line IB-IB of FIG
- FIG. 6A is a cross-sectional view showing a second drawing step corresponding to the peripheral region of the VIA-VIA line of FIG.
- FIG. 6B is a cross-sectional view showing a second draw step corresponding to the extension region of the VIB-VIB line of FIG.
- FIG. 7A is a cross-sectional view comparing the first and second throttle steps and the stepped portion of the extension region.
- FIG. 7B is a schematic view of the direction of arrow X2 from the side of arrow X1 of FIG. 7A.
- the outer panel 10 of the rear door of an automobile as shown in FIG. 1A is molded.
- the outer panel 10 is long in the front-rear direction of the vehicle (vehicle length direction: arrow X direction), while is short in the vehicle height direction (vertical direction: arrow Y direction), and the lower part on the rear side (arrow X2 side) is inclined. It is formed in a substantially trapezoidal shape.
- the outer panel 10 has a main body portion 14 that is exposed to the outside of the automobile (constituting the appearance of the rear door).
- a doorknob arranging portion 12 on which a doorknob (not shown) is installed is formed near the rear of the main body portion 14.
- a sharp character line 16 (ridge line) of an automobile is formed at a predetermined position in the arrow Y direction (position at the same height as the doorknob arrangement portion 12).
- the character line 16 rises with respect to the sliding surface portion 18 that is smoothly formed in the arrow Y direction (vertical direction) of the character line 16, and extends substantially linearly along the arrow X direction. That is, the sandwiching angle on the back surface side of the pair of sliding surface portions 18 sandwiching the character line 16 is smaller than 180 °.
- the outer panel 10 is provided with a step portion 20 at the front end side (arrow X1 side in FIG. 1A) of the main body portion 14.
- the step portion 20 is a portion that overlaps (covers) the rear side of the front door in the assembled state of the automobile.
- the step portion 20 is formed over substantially the entire length in the Y direction of the arrow, and is also provided at a portion where the character line 16 is formed.
- the stepped portion 20 also extends in a chevron shape in the Y direction of the arrow with a portion located on an extension line of the character line 16 as a reference line in accordance with the main body portion 14.
- the stepped portion 20 of the outer panel 10 extends in the direction of arrow X from the first orthogonal portion 22 and the first orthogonal portion 22 that bends from the main body portion 14 toward the passenger compartment in a cross-sectional view along the arrow X direction shown in FIG. 1B. It has an existing parallel portion 24 and a second orthogonal portion 26 that further bends toward the vehicle interior side from the parallel portion 24.
- the first orthogonal portion 22 is longer than the second orthogonal portion 26.
- the outer corner portion 28 between the main body portion 14 and the first orthogonal portion 22 constitutes a boundary between the outer exposed portion of the outer panel 10 and the portion hidden by the front door, and is formed into a round corner having a large curvature.
- the inner inner peripheral corner portion 30 between the first orthogonal portion 22 and the parallel portion 24 is formed into a round angle having a curvature smaller than that of the outer corner portion 28.
- the inner outer peripheral corner portion 32 between the parallel portion 24 and the second orthogonal portion 26 is formed to have a rounded angle similar to the curvature of the outer corner portion 28.
- the outer panel 10 is press-molded in the process shown in FIG. 2, so that the step portion 20 is formed while the main body portion 14 having the character line 16 is formed. Do.
- an intermediate molded body (not shown) having an intermediate ridge line portion having a radius of curvature larger than the radius of curvature of the character line 16 to be molded is press-molded from the plate material.
- the target molded body main body portion 14 is press-molded from the intermediate molded body.
- the intermediate molded body formed at the time of execution in the first draw step has a matching region where the cross-sectional shapes match on both sides of the intermediate ridge line portion and an intermediate region where the cross-sectional shapes do not match with respect to the target molded body. It is good to be molded into.
- the meat of the intermediate molded body, which is insufficient in the character line 16 can be supplied to the intermediate molded portion from both sides of the intermediate ridge line portion, and scratches and cracks around the character line 16 can be suppressed. it can.
- the first drawing step portion 40 is formed by the first draw process
- the second drawing step portion 60 is formed by the second drawing process.
- a trim step for cutting the outer periphery of the second drawing step portion 60, a finishing step for forming the completed step portion 20 by bending or the like are sequentially performed.
- the first drawing step portion 40 is drawn by drawing the end edge of the plate material (work) for forming the character line 16 (intermediate ridge line). Mold.
- the first throttle step portion 40 has a shape in which the first inclined portion 42 is continuous on the outer periphery of the main body portion 14, and the first parallel portion 44 is continuous on the outer periphery of the first inclined portion 42.
- a first outer curved portion 46 having a curvature sufficiently smaller than the curvature of the outer corner portion 28 of the completed step portion 20 is formed between the outer circumference of the main body portion 14 and the inner circumference of the first inclined portion 42. .. Similarly, between the outer circumference of the first inclined portion 42 and the inner circumference of the first parallel portion 44, the first inner curvature having a curvature sufficiently smaller than the curvature of the inner inner peripheral corner portion 30 of the completed outer panel 10 The portion 48 is formed.
- a punch (lower die) 50 that supports the back surface side of the work (main body 14), a die (upper die) 52 that holds down the front surface side of the work, and a work are pressed and first parallel.
- a first draw manufacturing apparatus 56 having a die convex portion 54 for forming the portion 44 is used.
- the work on the side opposite to the main body 14 sandwiching the die convex portion 54 is also sandwiched between the die and the punch (not shown).
- the extension region PF located on the extension line of the character line 16 and the peripheral region AF located in the periphery displaced in the arrow Y direction with respect to the extension region PF have mutual cross-sectional shapes (arrow X).
- Draw molding is performed so that the cross sections along the directions are different.
- the peripheral region AF corresponds to a portion continuous with the sliding surface portion 18 of the main body portion 14. That is, the first draw manufacturing apparatus 56 has the planar shapes of the punch 50, the die 52 and the die convex portion 54, and the die convex portion 54 so that the cross-sectional shape of the extension region PF and the cross-sectional shape of the peripheral region AF are different.
- the amount of protrusion is appropriately designed.
- each configuration of the step portion 20 located in the peripheral region AF is provided with a reference numeral a after the reference numeral, and each configuration of the step portion 20 located in the extension region PF is indicated by a reference numeral p after the reference numeral. It will be explained with reference to.
- the first outer curved portion 46a of the peripheral region AF is formed at substantially the same position as the outer corner portion 28 of the completed step portion 20 (slightly on the arrow X1 side of the outer corner portion 28).
- the inclination angle of the first inclined portion 42a with respect to the main body portion 14 is set small by the first outer curved portion 46a.
- the first inner curved portion 48a of the peripheral region AF is formed at substantially the same position as the inner outer peripheral corner portion 32 of the completed step portion 20. Therefore, the drawing depth D1a of the first parallel portion 44a with respect to the sliding surface portion 18 (main body portion 14) is formed to be relatively shallow.
- the first outer curved portion 46p of the extension region PF is formed so as to be offset to the arrow X1 side (outer side) from the outer corner portion 28 of the completed step portion 20. That is, the first outer curved portion 46p of the extension region PF is shifted to the arrow X1 side from the first outer curved portion 46a of the peripheral region AF.
- the main body portion 14 (character line 16) is located below the stepped portion 20 of the completed form at a position shallower than the character line 16 in the first draw process. This is because the processing is performed and the main body portion 14 is lifted to the character line 16 in the second draw step.
- the inclination angle of the first inclined portion 42p with respect to the main body portion 14 is set to be larger than the inclination angle of the first inclined portion 42a by the first outer curved portion 46p.
- the first inner curved portion 48p of the extension region PF is formed at substantially the same position as the inner outer peripheral corner portion 32 of the completed step portion 20. Therefore, the aperture depth D1p of the first parallel portion 44p with respect to the character line 16 (main body portion 14) is deeper than the aperture depth D1a of the peripheral region AF.
- the curvatures of the first outer curved portion 46p and the first inner curved portion 48p in the extension region PF are formed to be smaller than the curvatures of the first outer curved portion 46a and the first inner curved portion 48a in the peripheral region AF.
- the distance I1p between the first outer curved portion 46p and the first inner curved portion 48p in the extension region PF is formed shorter than the distance I1a between the first outer curved portion 46a and the first inner curved portion 48a in the peripheral region AF. ..
- the relationship is L1p ⁇ L1a.
- the first outer curved portion 46p of the extension region PF and its vicinity extend to the outside of the main body portion 14 with respect to the first outer curved portion 46a of the peripheral region AF.
- the first diaphragm step portion 40 has a shape in which the first parallel portion 44p in the extension region PF is slightly recessed with respect to the first parallel portion 44a in the peripheral region AF.
- the first drawing step portion 40 connected to the main body portion 14 is further drawn to form the second drawing step portion 60.
- the second throttle step portion 60 is formed so that the second inclined portion 62 is continuous on the outer periphery of the main body portion 14 and the second parallel portion 64 is continuous on the outer periphery of the second inclined portion 62.
- a second outer curved portion 66 having a curvature sufficiently smaller than the curvature of the outer corner portion 28 of the completed step portion 20 is formed between the outer circumference of the main body portion 14 and the inner circumference of the second inclined portion 62. ..
- the second inner portion having a curvature sufficiently smaller than the curvature of the inner inner peripheral angle portion 30 of the completed step portion 20.
- the curved portion 68 is formed.
- the intermediate molded body (work) having the first drawing step portion 40 is conveyed to the second drawing manufacturing apparatus 76, and drawing molding is performed by the second drawing manufacturing apparatus 76.
- the second draw manufacturing apparatus 76 Similar to the first draw manufacturing apparatus 56, the second draw manufacturing apparatus 76 has a punch 70 that supports the back surface side of the main body portion 14, a die 72 that holds down the front surface side of the work (main body portion 14), and the work. It has a die convex portion 74 that is pressed to form a second parallel portion 64.
- the work on the side opposite to the main body 14 sandwiching the die convex portion 74 is also sandwiched between the die and the punch (not shown).
- the planar shape of the punch 70, the die 72 and the die convex portion 74, and the protrusion amount of the die convex portion 74 are appropriately designed, so that the arrow X is formed in the extension region PF and the peripheral region AF. Molding is performed so that the cross sections along the directions are different from each other.
- the second outer curved portion 66a of the peripheral region AF is formed at substantially the same position as the outer corner portion 28 of the completed step portion 20.
- the inclination angle of the second inclined portion 62a with respect to the main body portion 14 is set by the second outer curved portion 66a to be larger than the inclination angle of the first inclined portion 42a in the first draw step.
- the second inner curved portion 68a of the peripheral region AF is formed slightly closer to the arrow X2 side with respect to the inner outer peripheral corner portion 32 of the completed step portion 20.
- the drawing depth D2a of the second parallel portion 64a with respect to the sliding surface portion 18 (main body portion 14) is formed deeper than the drawing depth D1a of the first parallel portion 44a in the first draw step.
- the second outer curved portion 66p of the extension region PF is formed at substantially the same position as the outer corner portion 28 of the completed step portion 20. That is, the first outer curved portion 46p formed by the first draw step is located on the X1 side of the second outer curved portion 66p formed by the second draw step. Therefore, the vicinity of the first outer curved portion 46p where the plate material of the work is stretched in the first draw step and the vicinity of the second outer curved portion 66p where the plate material is stretched in the second draw step are deviated from each other.
- the curvature of the second outer curved portion 66p is formed to be larger than the curvature of the first outer curved portion 46p in the first draw step.
- the inclination angle of the second inclined portion 62p with respect to the main body portion 14 is also set to be larger than the inclination angle of the second inclined portion 62a of the peripheral region AF by the second outer curved portion 66p.
- the second inner curved portion 68p of the extension region PF is located on the arrow X2 side of the inner outer peripheral corner portion 32 of the completed step portion 20.
- the aperture depth D2p of the second parallel portion 64p with respect to the character line 16 (main body portion 14) is formed to be slightly deeper than the aperture depth D2a of the second parallel portion 64a of the peripheral region AF.
- the curvatures of the second outer curved portion 66p and the second inner curved portion 68p in the extension region PF are formed to be smaller than the curvatures of the second outer curved portion 66a and the second inner curved portion 68a in the peripheral region AF.
- the distance I2p between the second outer curved portion 66p and the second inner curved portion 68p in the extension region PF is set to be even shorter than the distance I2a between the second outer curved portion 66a and the second inner curved portion 68a in the peripheral region AF.
- the outer circumference of the second throttle step portion 60 is cut in order to match the size of the step portion 20 described above. That is, the second parallel portion 64 of the second drawing step portion 60 projects outward longer than the step portion 20 of the completed form, and by cutting the outside of the second parallel portion 64 in the trim step, the completed form A trim molded product having a size corresponding to the step portion 20 (considering the molding of the second orthogonal portion 26) is obtained.
- the step portion 20 is formed by placing the trim molded product on a press device (not shown) and performing press molding (bending, etc.).
- the press forming method according to the present embodiment is basically configured as described above, and its operation will be described below.
- the first draw step, the second draw step, the trim step, and the finishing step are sequentially performed to form the main body portion 14 having the character line 16 and the main body portion 14 of the main body portion 14.
- a step portion 20 is formed at the front end at the same time.
- the first outer curved portion 46a is formed in the peripheral region AF at substantially the same position as the second outer curved portion 66a of the peripheral region AF in the second draw process.
- the first parallel portion 44a having a drawing depth D1a shallower than the drawing depth D2a of the second parallel portion 64a is formed.
- the length L1a of the first inclined portion 42a is shorter than the length L2a of the second inclined portion 62a. Therefore, the portion of the main body portion 14 connected to the sliding surface portion 18 is processed into the same shape as the first drawing step when the normal step portion 20 is manufactured.
- the first outer curved portion 46p is outside the second outer curved portion 66p of the extension region PF in the second draw process. It is formed on the side (arrow X1 side).
- the first parallel portion 44p of the extension region PF is formed to the same depth as the drawing depth D2p of the second parallel portion 64p in the second draw step. More specifically, the first parallel portion 44p is formed below the depth of the stepped portion 20 of the completed form, and the length L1p of the first inclined portion 42p is approximated to the length L2p of the second inclined portion 62p. There is.
- the plate material near the first outer curved portion 46p having a small curvature is stretched, and the second parallel portion 64p is punched to a position close to the parallel portion 24 of the step portion 20. ..
- the plate thickness in the vicinity of the first outer curved portion 46p at a position displaced outward is gradually reduced (decreased) along the surface direction with respect to the outer corner portion 28 of the completed step portion 20.
- the shape is the same as that of the second draw step when manufacturing the normal step portion 20. Is processed into. That is, in the peripheral region AF, the second outer curved portion 66a is formed at substantially the same position as the outer corner portion 28 of the completed step portion 20, and the second outer curved portion 66a is formed at a depth close to the parallel portion 24 of the completed step portion 20.
- the parallel portion 64a is formed.
- the second outer curved portion 66p is formed by shifting it inward (arrow X2 side) from the first outer curved portion 46p.
- the second inner curved portion 68p is positioned inward (arrow X2 side) from the first inner curved portion 48p in the first draw step in the extension region PF, and the first inner curved portion is curved.
- the curvature is formed larger than that of the portion 48p.
- the plate material near the second outer curved portion 66p inside the first outer curved portion 46p during the first draw process is stretched. Therefore, in the plate material constituting the stepped portion 20, different portions of the plate material are stretched in the first draw step and the second draw step, and it is possible to avoid that the specific portion of the plate material is stretched intensively. .. Therefore, the step portion 20 suppresses the generation of cracks in the extension region PF.
- the second inner curved portion 68p in the second draw step is located at a position close to the inner inner peripheral angle portion 30 of the completed step portion 20 (the second inner curved portion of the peripheral region AF).
- the interval Cp) is shorter than the interval between 68a and the inner inner peripheral angle portion 30 of the completed step portion 20. That is, when the peripheral length around the second inner curved portion 68p of the extension region PF is l 1, and the peripheral length around the inner inner peripheral corner portion 30 of the completed step portion 20 is l 0 , the peripheral length is l 1 .
- the circumference l 0 has similar dimensions (a state in which there is almost no difference between the circumferences).
- the periphery of the second inner curved portion 68p and the periphery of the inner inner peripheral angle portion 30 of the extension region PF refer to a range in which the step portion 20 is curved by the character line 16 of the main body portion 14.
- the line shrinkage rate S in the extension area PF in the present embodiment is the line of ordinary press molding (for example, the line of the peripheral area AF). It is sufficiently smaller than the shrinkage rate S).
- S (l 1 ⁇ l 0 ) / l 0 ... (1)
- the linear shrinkage ratio S of the extension region PF is small in this way, in the finishing process, when the finished step portion 20 is formed from the second drawing step portion 60 (trim molded product after the trim step), the plate material is formed. Gathering is suppressed as much as possible. Therefore, the step portion 20 also suppresses the occurrence of wrinkles in the extension region PF.
- the press molding method is not limited to the production of the outer panel 10 of the rear door, and of course, it can be applied to various molded products having the character line 16 and the stepped portion 20.
- the stepped portion 20 is satisfactorily formed without causing wrinkles or cracks even at the end portion of the main body portion 14 having the character line 16. be able to. That is, since the positions of the first outer curved portion 46p formed in the first draw step and the second outer curved portion 66p formed in the second draw step are displaced, the plate material at a specific portion in the extension region PF becomes extremely thin. Is suppressed. Therefore, cracking in the extension region PF is suppressed.
- first parallel portion 44p formed in the first draw step has the same depth as the second parallel portion 64p, and the second inner curved portion 68p is formed to have a large curvature in the second draw step, whereby the second inner curved portion is formed.
- 68p can be brought closer to the stepped portion 20 of the completed form. Therefore, the shrinkage of the second inner curved portion 68p in the finishing process is reduced, and the occurrence of wrinkles in the extension region PF is suppressed.
- the press forming method can significantly improve the yield at the time of manufacturing.
- the first outer curved portion is located at the same position as the second outer curved portion 66a with respect to the peripheral region AF located around the direction orthogonal to the extending direction of the character line 16 (intermediate ridge line).
- the 46a is formed, and the first parallel portion 44a, which is shallower than the drawing depth D2a of the second parallel portion 64a, is formed.
- the stepped portion 20 can be stably formed by gradually approaching the shape close to the stepped portion 20 by the two-step drawing process.
- the first outer curved portion 46p of the extension region PF is formed on the outer side of the first outer curved portion 46a of the peripheral region AF.
- the extension region PF near the first outer curved portion 46p
- the shape of the main body portion 14 having the character line 16 is prevented from breaking.
- the stepped portion 20 is extended by forming an outer corner portion 28 at the position of the second outer curved portion 66p and forming an inner inner peripheral corner portion 30 at the position of the second inner curved portion 68p by the finishing step.
- the distance Cp between the second inner curved portion 68p of the region PF and the inner inner peripheral corner portion 30 is shorter than the distance between the second inner curved portion 68a of the peripheral region AF and the inner inner peripheral corner portion 30.
- the second inner curved portion 68p of the extension region PF is moved inward from the first inner curved portion 48p in the first draw step.
- the step portion 20 is provided at the front end portion of the outer panel 10 constituting the rear door of the automobile. As a result, even if the outer panel 10 constituting the rear door has the character line 16, the stepped portion 20 overlapping the parting portion of the front door at the front end portion is formed with good appearance.
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Abstract
Description
S=(l1-l0)/l0 …(1)
Claims (6)
- キャラクタライン(16)を有する本体部(14)の端部に段差部(20)を形成するプレス成形方法であって、
第1外側湾曲部(46)を介して前記本体部に連なる第1傾斜部(42)と、第1内側湾曲部(48)を介して前記第1傾斜部に連なり且つ前記本体部と平行に延在する第1平行部(44)とを有する第1絞り段部(40)を、前記キャラクタラインを有するワークから絞り加工する第1ドロー工程と、
前記第1ドロー工程後に、第2外側湾曲部(66)を介して前記本体部に連なる第2傾斜部(62)と、第2内側湾曲部(68)を介して前記第2傾斜部に連なり且つ前記本体部と平行に延在する第2平行部(64)とを有する第2絞り段部(60)を、前記第1絞り段部から絞り加工する第2ドロー工程と、
前記第2ドロー工程後に前記段差部を完成させる仕上工程とを有し、
前記第1ドロー工程では、前記キャラクタラインの延長線上に位置する延長領域(PF)に対して、前記第2外側湾曲部よりも外側に前記第1外側湾曲部を成形すると共に、前記第2平行部の絞り深さと同じ深さに前記第1平行部を成形し、
前記第2ドロー工程では、前記延長領域に対して、前記第1内側湾曲部よりも曲率の大きい前記第2内側湾曲部を成形する
プレス成形方法。 - 請求項1記載のプレス成形方法において、
前記第1ドロー工程では、前記キャラクタラインの延在方向と直交する方向の周辺に位置する周辺領域(AF)に対して、前記第2外側湾曲部と同じ位置に前記第1外側湾曲部を成形すると共に、前記第2平行部の絞り深さよりも浅い前記第1平行部を成形する
プレス成形方法。 - 請求項2記載のプレス成形方法において、
前記延長領域の前記第1外側湾曲部は、前記周辺領域の前記第1外側湾曲部よりも外方側に成形される
プレス成形方法。 - 請求項2記載のプレス成形方法において、
前記段差部は、前記仕上工程により、前記第2外側湾曲部の位置に外側角部(28)が形成されると共に、前記第2内側湾曲部の位置に内側内周角部(30)が形成され、
前記延長領域の前記第2内側湾曲部と前記内側内周角部との間隔が、前記周辺領域の前記第2内側湾曲部と前記内側内周角部との間隔より短い
プレス成形方法。 - 請求項1~4のいずれか1項に記載のプレス成形方法において、
前記第2ドロー工程では、前記延長領域の前記第2内側湾曲部を、前記第1ドロー工程の前記第1内側湾曲部よりも内方側に移動させる
プレス成形方法。 - 請求項1記載のプレス成形方法において、
前記段差部は、自動車のリアドアを構成するアウタパネル(10)の前側の端部に設けられる
プレス成形方法。
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA3135330A CA3135330C (en) | 2019-03-28 | 2020-03-03 | Press forming method |
US17/440,214 US11628484B2 (en) | 2019-03-28 | 2020-03-03 | Press forming method |
CN202080024935.7A CN113631292B (zh) | 2019-03-28 | 2020-03-03 | 冲压成型方法 |
JP2021508889A JP7104238B2 (ja) | 2019-03-28 | 2020-03-03 | プレス成形方法 |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2019-063228 | 2019-03-28 | ||
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JP2007268608A (ja) * | 2006-03-08 | 2007-10-18 | Kobe Steel Ltd | アルミニウム合金板のプレス成形方法およびプレス装置 |
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JPS6257406B2 (ja) * | 1982-04-05 | 1987-12-01 | Nissan Motor | |
JP2006015404A (ja) * | 2004-06-01 | 2006-01-19 | Kobe Steel Ltd | 曲げ成形方法およびその成形方法に用いる成形金型 |
JP2009056491A (ja) * | 2007-08-31 | 2009-03-19 | Kobe Steel Ltd | アルミニウム合金板のプレス成形方法およびプレス装置 |
JP2017030038A (ja) * | 2015-08-05 | 2017-02-09 | 株式会社Uacj | プレス成形品の製造方法及びプレス成形型 |
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US11628484B2 (en) | 2023-04-18 |
JPWO2020195593A1 (ja) | 2021-11-11 |
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CA3135330A1 (en) | 2020-10-01 |
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