RIGIDITY IMPROVEMENT METHOD FOR PRESS-FORMED PRODUCT, PRESS-FORMING DIE, PRESS-FORMED PRODUCT, AND METHOD OF PRODUCING PRESS-FORMED PRODUCT

Abstract

To suppress springback of the press-formed product, in improving rigidity of a press-formed product having a low rigidity shape produced by press-forming a sheet material by a rigidity adding shape to suppress springback at a time when the press-formed product is removed from a die, the rigidity adding shape is arranged to extend in a direction of crossing a displacement contour indicating a state of springback in an initial shape prior to an arrangement of the rigidity adding shape of the press-formed product.

Claims

1.-16. (canceled)

17. A rigidity improvement method for a press-formed product, wherein, in improving rigidity of a press-formed product produced by press-forming a sheet material by a rigidity adding shape, to suppress springback at a time when the press-formed product is removed from a die, the rigidity adding shape is arranged to extend in a direction of crossing a displacement contour indicating a state of springback in an initial shape prior to an arrangement of the rigidity adding shape of the press-formed product.

18. The rigidity improvement method according to claim 17, wherein the displacement contour is obtained by a springback analysis of the initial shape, and the rigidity adding shape is arranged to extend in the direction of crossing the displacement contour.

19. The rigidity improvement method according to claim 18, wherein a plurality of rigidity adding shapes are arranged to extend in the direction of crossing the displacement contour, and adjacent rigidity adding shapes of the plurality of rigidity adding shapes overlap with each other and extend in the direction of crossing the displacement contour.

20. The rigidity improvement method according to claim 17, wherein the rigidity adding shape has a closed profile shape arranged to extend along a peripheral edge of the initial shape.

21. A press-forming die for producing a press-formed product on which a rigidity adding shape is arranged from a sheet material to suppress springback at a time when the press-formed product is removed from a die, wherein the press-forming die comprises a die member configured to form the rigidity adding shape to extend in a direction of crossing a displacement contour indicating a state of springback in an initial shape prior to an arrangement of the rigidity adding shape of the press-formed product.

22. The press-forming die according to claim 21, wherein the displacement contour is obtained by a springback analysis of the initial shape, and the rigidity adding shape is arranged to extend in the direction of crossing the displacement contour.

23. The press-forming die according to claim 22, wherein a plurality of rigidity adding shapes are arranged to extend in the direction of crossing the displacement contour, and adjacent rigidity adding shapes of the plurality of rigidity adding shapes overlap with each other and extend in the direction of crossing the displacement contour.

24. The press-forming die according to claim 21, wherein the rigidity adding shape has a closed profile shape arranged to extend along a peripheral edge of the initial shape.

25. A press-formed product produced by press-forming a sheet material and on which a rigidity adding shape is arranged to suppress springback at a time when the press-formed product is removed from a die, wherein the rigidity adding shape is arranged to extend in a direction of crossing a displacement contour indicating a state of springback in an initial shape prior to an arrangement of the rigidity adding shape of the press-formed product.

26. The press-formed product according to claim 25, wherein the displacement contour is obtained by a springback analysis of the initial shape, and the rigidity adding shape is arranged to extend in a direction of crossing the displacement contour.

27. The press-formed product according to claim 26, wherein a plurality of rigidity adding shapes are arranged to extend in the direction of crossing the displacement contour, and adjacent rigidity adding shapes of the plurality of rigidity adding shapes overlap with each other and extend in the direction of crossing the displacement contour.

28. The press-formed product according to claim 25, wherein the rigidity adding shape has a closed profile shape arranged to extend along a peripheral edge of the initial shape.

29. A method of producing a press-formed product, wherein, in producing a press-formed product on which a rigidity adding shape is arranged by press-forming a sheet material, to suppress springback at a time of removal from a die, the rigidity adding shape is arranged to extend in a direction of crossing a displacement contour indicating a state of springback in an initial shape prior to an arrangement of the rigidity adding shape of the press-formed product.

30. The method according to claim 29, wherein the displacement contour is obtained by a springback analysis of the initial shape, and the rigidity adding shape is arranged to extend in a direction of crossing the displacement contour.

31. The method according to claim 30, wherein a plurality of rigidity adding shapes are arranged to extend in the direction of crossing the displacement contour, and adjacent rigidity adding shapes of the plurality of rigidity adding shapes overlap with each other and extend in the direction of crossing the displacement contour.

32. The method according to claim 29, wherein the rigidity adding shape has a closed profile shape arranged to extend along a peripheral edge of the initial shape.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] FIG. 1 is a perspective view illustrating an initial shape of a press-formed product according to a configuration whose rigidity is to be improved by a rigidity improvement method for a press-formed product according to an example.

[0031] FIG. 2 is a plan view illustrating a height directional displacement distribution by a springback analysis of the press-formed product having the initial shape by displacement contour.

[0032] FIG. 3 is an explanatory view illustrating three rigidity adding shapes arranged by the rigidity improvement method of the aforementioned example on the press-formed product having the initial shape together with the displacement contour of FIG. 2.

[0033] FIG. 4 is a plan view illustrating a height directional displacement distribution by a springback analysis of a press-formed product of an example on which the three rigidity adding shapes are arranged by displacement contour.

[0034] FIG. 5 is an explanatory view illustrating a rigidity adding shape arranged by the rigidity improvement method of another example on the press-formed product having the initial shape together with the displacement contour of FIG. 2.

REFERENCE SIGNS LIST

[0035] 1 press-formed product

[0036] 2, 3, 4 rod-shaped bead (rigidity adding shape)

[0037] 5 frame-shaped bead (rigidity adding shape)

DETAILED DESCRIPTION

[0038] Examples of our methods, dies and products will be described in detail below on the basis of the drawings. FIG. 1 is a perspective view illustrating an initial shape of a press-formed product according to a configuration whose rigidity is to be improved by a rigidity improvement method for a press-formed product according to an example. FIG. 2 is a plan view illustrating a height directional displacement distribution by a springback analysis of the press-formed product having the initial shape by displacement contour. FIG. 3 is an explanatory view illustrating three rigidity adding shapes arranged by the rigidity improvement method of the aforementioned example on the press-formed product having the initial shape together with the displacement contour of FIG. 2. Reference numeral 1 denotes a press-formed product in the drawings.

[0039] The rigidity improvement method for a press-formed product is to improve the rigidity of the press-formed product 1, which is a front pillar lower inner material as a type of a body part of an automobile, and the press-formed product 1 usually has a trapezoidal shape which is usually easy to bend and twist, i.e., a shape with a low rigidity. A press-formed product, which is an automobile body part, often has such a low rigidity shape. The initial shape of the press-formed product 1 illustrated in FIG. 1 is subjected to a press formation analysis and a springback analysis with a computer using known software, resulting that, as illustrated in FIG. 2, it can be seen that the interval of the displacement contours is relatively narrow in a longitudinal direction (X-axis direction) and the displacement contours are asymmetrically distributed in a width direction (Y-axis direction), and falling and twisting occur due to the springback.

[0040] Thus, in the rigidity improvement method for a press-formed product, the press-formed product 1 includes three rod-shaped beads 2, 3, 4, which are each a rigidity adding shape as illustrated in FIG. 3, and the three rod-shaped beads 2, 3, 4 add rigidity to the initial shape of the press-formed product 1. The cross-sectional shape of each of the three rod-shaped beads 2, 3, 4 may be, for example, a smooth sine wave shape for easy formation, may be a rectangular wave shape for further increased rigidity, or may vary between the rod-shaped beads 2, 3, 4.

[0041] In the rigidity improvement method for a press-formed product of the example, the three rod-shaped beads 2, 3, 4 are each arranged to extend in a direction of crossing the displacement contours of the initial shape of the press-formed product 1, and adjacent rod-shaped beads 2, 3 and adjacent rod-shaped beads 3, 4 are arranged to overlap with each other and extend in a direction of crossing the displacement contours, thereby to constitute the press-formed product of the aforementioned example.

[0042] As is for the initial shape, the shape of the press-formed product 1 of the example in which the rod-shaped beads 2, 3, 4 are arranged as described above is subjected to a press formation analysis and a springback analysis with a computer using known software. As illustrated in FIG. 4, the interval of the displacement contours is relatively wide in the longitudinal direction (X-axis direction), and the displacement contours are symmetrically distributed in the width direction (Y-axis direction), and it can be seen that falling and twisting due to the springback are reduced or eliminated.

[0043] A sheet material forming the press-formed product 1 of the example can be, for example, a 980 MPa-class high-tensile steel sheet having a thickness t: 0.9 mm, a yield point YP: 620 MPa, a tensile strength TS: 1030 MPa, and an elongation El: 15%. The method of producing a press-formed product may use a press-forming die of an example to press-form the high-tensile steel sheet to form the press-formed product 1 of the aforementioned example.

[0044] Therefore, the press-forming die of the aforementioned example includes as a die member, a normal punch, die and blank holder. The die has a thin trapezoidal shape above outward flanges positioned at upper and lower ends of the press-formed product 1 in FIG. 1 and a concave portion having a shape that corresponds to the rod-shaped beads 2, 3, 4 of FIG. 3 protruding upward from a planar surface of the trapezoidal shape. The blank holder holds a steel sheet between the blank holder and a plane surface extending outward from the concave portion of the die. The punch pushes the steel sheet, which is held between the die and the blank holder, into the concave of the die to form the steel sheet into a thin trapezoidal shape, and pushes a convex portion of the leading end of the punch into the concave portion of the die to form the rod-shaped beads 2, 3, 4 by extrusion on the planar surface of the trapezoidal shape.

[0045] The concave portion of the die and the concave portion of the leading end of the punch of the press-forming die of the aforementioned example are formed such that each of the rod-shaped beads 2, 3, 4 extends in a direction of crossing the displacement contour of the initial shape of the press-formed product 1 and adjacent rod-shaped beads 2, 3 and adjacent rod-shaped beads 3, 4 overlap with each other and extend in the direction of crossing the displacement contours.

[0046] By the method of producing the press-formed product of the aforementioned example, on the press-formed product 1 formed using the press-forming die of the aforementioned example, the rod-shaped beads 2, 3, 4 arranged thereon extend in the direction of crossing the displacement contour indicating a state of springback in the initial shape of the press-formed product 1, and thus the press-formed product 1 is the press-formed product of the aforementioned example. With the press-formed product of the example and by the method of producing the press-formed product, falling or rising of an end of the press-formed product 1 or twisting of the press-formed product 1 that occurs when the press-formed product 1 is bent along the direction of crossing the displacement contour at a removal from the die can be effectively suppressed by the rod-shaped beads 2, 3, 4, and the springback of the press-formed product 1 can be effectively suppressed.

[0047] Moreover, with the press-formed product of the example and by the method of producing the press-formed product, the adjacent rod-shaped beads 2, 3 and the adjacent rod-shaped beads 3, 4 overlap with each other and extend in the direction of crossing the displacement contour. Therefore, no gap is formed in the extending direction thereof between the three rod-shaped beads 2, 3, 4 extending in the direction of crossing the displacement contour, and the press-formed product 1 can be prevented from bending along the direction of crossing the displacement contour at the gap portion so that the springback of the press-formed product 1 can be effectively suppressed.

[0048] FIG. 5 is an explanatory view illustrating a rigidity adding shape arranged by a rigidity improvement method of another example on the press-formed product having the initial shape together with the displacement contour of FIG. 2. In the rigidity improvement method for a press-formed product of the example, a frame-shaped bead 5 obtained by connecting rod-shaped beads in a frame shape is arranged as a rigidity adding shape on the initial shape of the press-formed product 1 illustrated in FIG. 1. The frame-shaped bead 5 has a closed profile shape arranged to protrude upward to extend along a peripheral edge near the peripheral edge of the trapezoidal shape of the initial shape of the press-formed product 1 illustrated in FIG. 1.

[0049] The displacement contours usually extend in the direction of crossing the peripheral edge near the peripheral edge of the initial shape. Therefore, by the rigidity improvement method for a press-formed product of the example, the press-formed product of another example whose rigidity is improved by the rigidity improvement method, and the method of producing a press-formed product of another example that press-forms the press-formed product, even if the displacement contours are not obtained by a springback analysis, the frame-shaped bead 5 can be arranged to extend in the direction of crossing the displacement contour, whereby the springback of the press-formed product 1 can be easily suppressed.

[0050] Further, the press-forming die that produces the press-formed product of the example whose rigidity is improved by the rigidity improvement method of the example can also be configured as the press-forming die of the previous example, and the same effect as that obtained by the press-forming die of the previous example can be provided.

[0051] The examples have been described heretofore. However, the rigidity improvement method for a press-formed product, the press-forming die, the press-formed product, and the method of producing the press-formed product are not limited to the aforementioned examples, but can be properly changed within the scope of the appended claims. For example, the shape of the press-formed product or the rigidity adding shape may be a downwardly recessed bead shape, instead of or in addition to the upwardly protruding bead shape, and the frame-shaped bead 5 illustrated in FIG. 5 may have a step shape that is one step higher or lower within the frame instead of the rod-shaped bead shape.

INDUSTRIAL APPLICABILITY

[0052] Thus, by the rigidity improvement method for a press-formed product, the press-forming die, the press-formed product, and the method of producing the press-formed product, springback of the press-formed product having a low rigidity shape can be effectively suppressed.