JP2008068280A - Press machine and press working method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a press machine where the loss of energy (press load) can be suppressed. <P>SOLUTION: At the inside of a frame part 11 in a bolster carrier 9 to be mounted with a bolster 7, a rib 12 is formed so as to be crosswise, and the crossed part C1 of the rib 12 is supported by a strut 14 erected at the center of a die cushion housing part 13 in a bed 10. In this way, the center of the bolster 7 is supported by the strut 14 via the crossed part C1 of the rib 12 in the bolster carrier 9, and the bending of the center in the bolster 7 into a recessed shape by a press load can be prevented. Thus, the press load (energy) consumed for the deformation (bending) of the bolster 7 is reduced, so as to suppress the loss of the press load. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a press apparatus, and more particularly to a press apparatus in which a lower mold is supported by a bolster.

  2. Description of the Related Art Conventionally, there has been known a press device that makes a wrinkle pressing force acting on a cushion ring uniform by a die cushion (see, for example, Patent Document 1). For example, in the conventional press apparatus 1 shown in FIG. 6, the die cushion 6 includes a plurality of cushion pins 3 that support the cushion ring 2, a cushion pad 4 that supports the plurality of cushion pins 3, and the cushion. And a cushion 5 that receives the wrinkle pressing force acting on the pad 4, and the die cushion 6 allows the cushion ring 2 to tilt, the length of the cushion pin 3 to vary, and the parallelism error of the cushion pad 4 to the bolster 7. By absorbing the distortion of the main body of the press device 1, the wrinkle pressing force acting on the cushion ring 2 is made uniform. In the conventional press apparatus 1, the lower die 8 is placed at the center of the bolster 7, and the bolster 7 is supported on the bed 10 via the bolster carrier 9.

In the conventional press apparatus 1, the peripheral part of the bolster 7 is supported by the bolster carrier 9 formed in the frame shape. For this reason, the center of the bolster 7 is bent into a concave shape due to the press load, and energy (load) consumed for the bending of the bolster 7 is lost. Therefore, as the energy consumption increases, the manufacturing cost increases and the carbon dioxide emission increases. Moreover, when the press apparatus 1 with a higher rank capability is necessary due to energy loss, the apparatus becomes larger and the equipment cost increases.
JP-A-6-190464 (paragraph numbers 0011 to 0032, FIGS. 1 to 4)

  Then, this invention is made | formed in view of the situation, and it aims at providing the press apparatus by which the loss of energy (press load) is suppressed.

In order to achieve the object, the invention according to claim 1 of the present invention is a pressing device in which a lower mold is placed on a bolster, and supports a part or all of the peripheral edge of the bolster and at least the center. The bolster carrier is provided.
According to a second aspect of the present invention, in the press device according to the first aspect, the bolster carrier is formed in a rectangular shape and supported by a bed, and is formed in a cross shape and crosses the center of the bolster by the intersection. And a first rib to be supported.
According to a third aspect of the present invention, in the pressing device according to the second aspect of the present invention, the press device according to the second aspect includes a support column that is erected in the center of the die cushion housing portion of the bed and supports the intersection of the first ribs of the bolster carrier. It is characterized by that.
According to a fourth aspect of the present invention, in the press device according to the second aspect of the present invention, a second shape which is formed in a cross shape in the die cushion accommodating portion of the bed and supports the center or the entirety of the first rib of the bolster carrier. A rib is provided.

Therefore, in the invention according to the first aspect, the bolster carrier supports a part or all of the peripheral edge of the bolster and at least the center, so that the center of the bolster is prevented from being bent into a concave shape by the press load.
In the invention according to claim 2, the center of the bolster is supported by the intersection of the first ribs formed in a cross shape of the bolster carrier.
In the invention according to claim 3, the intersection of the first ribs of the bolster carrier is supported by a support column erected at the center of the die cushion housing portion of the bed.
In the invention according to claim 4, the center or the whole of the first rib of the bolster carrier is supported by the second rib formed in the cross shape of the bed.

  It is possible to provide a press apparatus in which energy (press load) loss is suppressed.

  An embodiment of the present invention will be described with reference to FIGS. In addition, the same name and code | symbol are provided about the part which a structure is the same as that of the conventional press apparatus 1 mentioned above, or corresponds. As shown in FIG. 1, in the present pressing apparatus 1, a frame portion 11 of a bolster carrier 9 on which a bolster 7 is placed is formed in a rectangular shape, and ribs 12 ( A first rib) is provided. The intersecting portion C1 of the rib 12 is supported by a support column 14 standing at the center of the die cushion accommodating portion 13 of the bed 10 so that the center of the bolster 7 is the intersecting portion C1 of the rib 12 of the bolster carrier 9. It is supported by the support | pillar 14 via. As a result, the press apparatus 1 prevents the center of the bolster 7 from being bent into a concave shape due to the press load, and the loss of the press load (energy) (the press load consumed in addition to the press load consumed for forming) is reduced. It has a suppressed structure.

  As shown in FIG. 2, the press device 1 includes a side plate in which a bed 10 (upper frame) is accommodated in a concrete pit 15 and is erected on both sides in the width direction (left-right direction in FIG. 2) of the bed 10. The crown 17 (upper frame) is supported by 16 (intermediate frame). The press device 1 also includes a slider 18 that is supported by the crown 17 and on which the upper die 20 is attached to the lower surface (upper die attachment surface). The press device 1 includes a pair of shafts 19 that are operated in the axial direction (vertical direction in FIG. 2) by a driving force of a slider driving mechanism (servo driving mechanism) provided on the crown 17, and the pair of shafts 19, the slider 18 and the upper mold 20 attached to the slider 18 are moved and positioned in the vertical direction (vertical direction in FIG. 2). Further, in this press apparatus 1, a lower die 8 (punch) is attached to the center of the upper surface (lower die attachment surface) of the bolster 7, and a cushion ring 2 (lower die pad) formed in a frame shape attaches the lower die 8. It is provided so as to be surrounded.

  As shown in FIG. 2, the cushion ring 2 is supported by a die cushion 6 including a plurality of cushion pins 3, a cushion pad 4, and a cushion 5. The die cushion 6 has the upper end of each cushion pin 3 abutted against the lower surface of the cushion ring 2, and each cushion pin 3 penetrates the bolster 7 so as to be movable vertically and in the axial direction (vertical direction in FIG. 2). To do. The die cushion 6 receives the wrinkle pressing force applied to the cushion ring 2 by the cushion pad 4 accommodated in the die cushion accommodating portion 13 of the bed 10 via each cushion pin 3. The die cushion 6 has a structure in which the wrinkle pressing force received by the cushion pad 4 is received by a plurality of cushions 5 disposed in the die cushion housing portion 13 of the bed 10.

  As shown in FIG. 1, the bolster carrier 9 has beams 12 a and 12 b laid between inner surfaces facing each other of the frame portion 11, and a cross that intersects at the center of the frame portion 11 inside the frame portion 11. A rib 12 is formed. In the bolster carrier 9, the frame portion 11 is supported by the opening peripheral edge of the die cushion housing portion 13 of the bed 10, and the intersecting portion C 1 of the rib 12 is supported by the support column 14. In the bolster carrier 9, the upper surface of the frame portion 11 and the upper surface of the rib 12 are formed flush with each other (the same plane), and the lower surface of the frame portion 11 and the lower surface of the rib 12 are formed flush with each other. Further, the cushion pad 4 is provided with a space 22 for avoiding interference with the column 14.

  Next, the operation of the press device 1 will be described. First, as shown in FIG. 2, a workpiece 21 (steel plate) is set between the upper mold 20 and the lower mold 8. Next, when the upper die 20 is lowered, the restrained portion of the work 21 is restrained by the upper die 20 and the cushion ring 2 (lower die pad) with a predetermined restraining force (wrinkle pressing force). The workpiece 21 is drawn by the upper mold 20 and the lower mold 8. At this time, the pressing force applied to the cushion ring 2 is received by the die cushion 6. On the other hand, the press load applied to the lower die 8 is received by the bolster 7, and the press load received by the bolster 7 is supported by the bed 10 via the bolster carrier 9. In the bolster carrier 9, the entire lower surface of the frame portion 11 is supported by the upper surface of the bed 10, and the intersection C 1 (center of the bolster carrier 9) of the rib 12 (first rib) is the die cushion of the bed 10. It is supported by a column 14 erected at the center of the accommodating portion 13.

  As a result, the center of the bolster 7 is supported by the column 14 erected on the bed 10 via the intersection C1 of the rib 12 of the bolster carrier 9, and the center of the bolster 7 is pressed by the press load. It is suppressed to bend in a concave shape. According to the experimental data by the present applicant, when forming a side member for an automobile from a steel plate (drawing), the conventional press device 1 (see FIG. 6) uses 1/3 to 1 / of the present press device 1. 5 press loads. At this time, the amount of bending of the bolster 7 in the present pressing device 1 was 1/2 or less of the amount of bending of the bolster 7 in the conventional pressing device 1. Therefore, in this press apparatus 1, it is concluded that the loss of the press load (energy) is suppressed as a result of halving the amount of bending of the bolster 7 compared to the conventional apparatus.

This embodiment has the following effects.
In the press device 1, a rib 12 (first rib) formed in a cross shape is formed inside the frame portion 11 of the bolster carrier 9, and an intersection C 1 of the rib 12 is a die cushion housing portion of the bed 10. 13 is supported by a support column 14 erected at the center of 13.
Therefore, in the press apparatus 1, the center of the bolster 7 is supported by the support column 14 via the intersection C 1 of the rib 12 of the bolster carrier 9. Thereby, in this press apparatus 1, it is suppressed that the center of the bolster 7 is bent in a concave shape due to the press load, the press load (energy) consumed for the deformation (deflection) of the bolster 7 is reduced, and the press load is lost. Is suppressed. As a result, the manufacturing cost can be reduced and the equipment can be downsized because the press device 1 with a small capacity is sufficient.
Moreover, in this press apparatus 1, since the rib 12 is formed in a cross shape, the rigidity of the bolster carrier 9 is increased, and the cushion pin 3 is effectively disposed by minimizing restrictions on the arrangement of the cushion pin 3. can do. Furthermore, in this press apparatus 1, since the intersecting portion C1 of the rib 12 of the bolster carrier 9 is supported in the axial direction of the column 14 by the column 14 (supported in the manner of a tension rod), the structure is relatively large with a simple structure. It can cope with press load.

In addition, embodiment is not limited to, For example, you may comprise as follows.
As shown in FIG. 3 to FIG. 5, instead of the support column 14 erected at the center of the die cushion accommodating portion 13 of the bed 10, the bed 10 is rectangular in plan view (downward line of sight in FIG. 5). The press apparatus 1 may be configured by providing a rib 25 (second rib) formed in a cross shape that divides the die cushion housing portion 13 formed in 4 into 2 × 2 in the vertical and horizontal directions. Thereby, the rigidity of the bed 10 is enhanced by the ribs 25 of the bed 10 and the entire rib 12 (first rib) of the bolster carrier 9 is supported, so that the bending of the bolster 7 due to the press load is suppressed. In this case, the cushion pad 4 is provided with a slit 26 formed in a cross shape in plan view, and the rib 25 of the bed 10 is inserted into the slit 26, whereby the cushion pad 4 and the rib 25 of the bed 10 are Interference is prevented.

It is explanatory drawing of the press apparatus of this Embodiment, Comprising: It is a disassembled perspective view of a bolster, a bolster carrier, and a bed. It is a front view which shows a part of press apparatus of this Embodiment in a cross section. It is explanatory drawing of the press apparatus of other embodiment, Comprising: It is a disassembled perspective view of a bolster, a bolster carrier, and a bed. It is explanatory drawing of the press apparatus of other embodiment, Comprising: It is a perspective view of the cushion pad corresponding to this bed which cut and showed a part. It is a front view which shows a part of press apparatus of other embodiment in a cross section. It is a front view which shows a part of conventional press apparatus in a cross section.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Press apparatus, 6 Die cushion, 7 Bolster, 8 Lower mold | type, 9 Bolster carrier, 10 Bed, 12 rib (1st rib), 13 Die cushion accommodating part, 14 support | pillar, 25 rib (2nd rib)

Claims (4)

  A press apparatus in which a lower mold is placed on a bolster, the press apparatus comprising a bolster carrier that supports a part or all of the periphery of the bolster and at least the center.   The bolster carrier includes a frame portion formed in a rectangular shape and supported by a bed, and a first rib formed in a cross shape and supporting the center of the bolster by an intersection portion. The press apparatus according to claim 1.   The press apparatus according to claim 2, further comprising a support column that is erected in the center of the die cushion housing portion of the bed and supports an intersecting portion of the first ribs of the bolster carrier.   The press apparatus according to claim 2, further comprising a second rib formed in a cross shape in the die cushion housing portion of the bed and supporting the center or the whole of the first rib of the bolster carrier. .

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