The present invention relates to a die-cushion device having a die-cushion pad.
A die-cushion device has been used in drawing-forming a workpiece with a pressing machine. Such a die-cushion device includes a die cushion pad supporting a blank holder via a cushion pin, and the die cushion pad is lowered in synchronization with a movement of a slide on which an upper die is mounted.
According to a recent suggestion, the die cushion pad is divided into a plurality of pad members, each of which is individually driven by a servo motor as a biasing force generating means so as to control a cushion force per pad member, such that a high-accuracy press forming operation may be performed (for example, see Patent Document 1).
[Patent Document 1] JP-A-06-543
However, when the die cushion pad is divided into a plurality of pad members, an overturning moment whose value is different from pad member to pad member is applied between an action point of the pad member and a reaction force point at the center of the pad member during a drawing-forming operation. Accordingly, each of the pad members is flexed and barred from being smoothly lowered, and the high-accuracy pressing forming operation has been limited.
An object of the present invention is to provide a die-cushion device that can smoothly lower a die cushion pad, whereby a higher-accuracy pressing forming operation can be realized.
A die-cushion device according to an aspect of the present invention is a die-cushion device provided to a pressing machine, including: a plurality of small pads applied with a pressing force of a slide via a cushion pin; a large pad supporting the plurality of small pads; and a biasing force generating means lifting up and down the large pad while generating an upward biasing force against the pressing force, in which a die cushion pad is provided by the small pads and the large pad.
According to the aspect of the present invention, since an action force applied to each of the small pad parts during a drawing-forming operation is equalized owing to the presence of the large pad, overturning moments caused by the action force are mutually offset to be reduced, whereby flexure of the small pad can be prevented. Accordingly, a cushion pin abutting the small pad can pass through a bolster without resistance, and the die cushion pad can be smoothly lowered without difficulty, whereby a high-accuracy pressing forming operation can be realized.
According to the aspect of the present invention, it is preferable that, in the die-cushion device, the small pads and the large pad are integrally fixed together.
According to the aspect of the present invention, since the small pad and the large pad are fixed by a fastening member such as a bolt, the action force on the small pad can be reliably and equalized owing to the large pad. Thus, the arrangement is more advantageous.
According to the aspect of the present invention, it is preferable that, in the die-cushion device, only the large pad is guided to be lifted up and down by an inner wall of a bed of the pressing machine.
According to the aspect of the present invention, since only the large pad, which is hardly flexed, is guided by the inner walls of the bed to be lifted up and down, the small pad, which is more or less flexed due to the overturning moment, can be lifted up and down without contacting the inner walls of the bed, thereby stabilizing a reaction force applied by the inner walls of the bed. Accordingly, when the die cushion pad is lowered in synchronization with the slide movement, a cushion pressure is less influenced by the reaction force, thereby facilitating a control of the biasing force generating means.
According to the aspect of the present invention, it is preferable that, in the die-cushion device, total four of the small pads are disposed in two lines and two rows, and the large pad is a single large pad supporting the four small pads.
According to the aspect of the present invention, the action force of the small pad can be equalized using front, rear, right and left small pads, and the overturning moment arising on each of the small pads can be canceled, such that the overturning moment can be close to zero. Thus, the arrangement is advantageous.
An embodiment of the present invention will be described below with reference to the attached drawings.
The pressing machine 1 includes: a crown 2 having a built-in driving force transmission mechanism such as a crank mechanism, eccentric mechanism and link mechanism; a slide 4 attached with an upper die 80 and connected to the driving force transmission mechanism inside the crown 2 via a plunger 3; a bed 6 on which a moving bolster 5 attached with a lower die 90 is mounted; and four uprights 7 (
As shown in
On the other hand, a cross-shaped rib 62 is provided to the bed 6 such that the rib 62 divides an inner space 61 into four parts in plan view. As shown in
Referring back to
As shown in
The small pad 15, which is a hollow rectangular metal box, is put into the small space 63 from an upper side of the rib 62 relative to the large pad 16 that is arrayed below the rib 62 in advance. The small pad 15 is guided by a guide pin 17 or the like to be positioned on the large pad 16, such that the small pad 15 is integrally fixed to the large pad 16 by a bolt or the like (not shown).
On the other hand, a guide plate 18 is provided on four circumferential lateral sides of the large pad 16, which is also a hollow rectangular metal box. The guide plates 18 face guide plates 64 provided on inner walls of the inner space 61 of the bed 6 shown in
As shown in
In the present embodiment, four biasing force generating means 14 are provided corresponding to each of the small pads 15. A rotation of each of the servomotors 24 is individually controlled by a controller. The rotation shaft of the servomotor 24 of the biasing force generating means 14 is forward-reverse rotated when electricity is supplied. When the servomotor 24 is supplied with electricity to rotate the rotation shaft, and the drive-side pulley 23, the driven-side pulley 22 and ball screw portion 20 are rotated. In accordance with the rotary movement of the ball screw portion 20, the nut portion 19 is linearly moved in the lifting direction. Consequently, the die-cushion pad 13 is lifted up and down in conjunction with the nut portion 19. A cushion pressure (biasing force) applied to the die-cushion pad 13 is controlled by controlling the electric current supplied to the servomotor 24.
In the above-described present embodiment, the die-cushion pad 13 is divided into the plurality of small pads 15 and the large pad 16. Accordingly, as schematically shown in
Particularly, in the present embodiment, the small pad 15 is divided into four parts, each of which is arrayed in two lines and two rows and located at a position point-symmetric in relation to the center of the large pad 16. Accordingly, the overturning moment M arising on each of the small pads 15 can be reliably canceled, and the overturning moment can be close to zero when seen from the large pad 16 side. Thus the arrangement is advantageous.
In addition, since the small pad 15 that is vulnerable to flexure contacts neither the inner walls of the bed 6 nor the rib 62 and is applied with no reaction force, a stable cushion pressure can be applied to the die-cushion pad 13, thereby facilitating the control of the biasing force generating means 14.
Incidentally, the present invention is not limited to the embodiment described above, but includes other arrangements as long as an object of the present invention can be achieved, which also includes the following modification.
Although the cross-shaped rib 62 provided on the bed 6 is provided such that the lower end side extends only to the middle of the up-and-down direction of the inner space 61 in the above-described embodiment, a rib portion 62A that is, for example, provided along a short side of the rib 62 may extend to the floor portion 65 as shown in
Although the cross-shaped rib 62 is provided on the bed 6 in the above-described embodiment, the rib 62 may be of any shape, such as a straight line shape. For instance, when a straight-line shaped rib is formed along a short side of the inner space 61, a pair of small pads 15 will be arrayed on the large pad 16 having such a size as described in the above embodiment. However, the small pad 15 in this case is substantially double in size as compared with the small pad explained in the above embodiment.
Further, in the present invention, the rib 62 of the bed 6 and a rib of the carrier 52 explained in the above embodiment may be provided as necessary. Such ribs are appropriately provided in accordance with flexure of the bolster 51.
Although, in the above embodiment, the small pad 15 and large pad 16 are integrally bolted together, the small pad 15 may be indirectly biased against the upper side of the large pad 16 by use of any biasing means.
Separately provided with a driving means, the small pad 15 may be lifted up and down separately from the large pad 16, and in such a case, the driving means may be housed, for example, inside the large pad 16. The lifting movement of both the small pad 15 and the large pads 16 is collectively controlled by the controller.
Although the die-cushion pad 13 is driven by the servomotor 24 in the above-described embodiment, the die-cushion pad 13 may be driven by a hydraulic actuator, pneumatic actuator and linear motor. Any arrangement of the biasing force generating means may be employed. As described above, the biasing force generating means may be air-cylinder type using air compressibility.
The number of the biasing force generating means 14 may be determined in any manner, which is not necessarily equivalent to the number of the small pads 15.
Although the best arrangement and method for implementing the present invention has been disclosed above, the present invention is not limited thereto. In other words, while the present invention has been described with reference to the specific embodiments and the drawings thereof, various modifications may be made to the disclosed embodiments by those of ordinary skill in the art without departing from the spirit and scope of the invention.
Therefore, the description that limits the shapes and the materials, especially of the small pad 15 and large pad 16, is only an example to make the invention easily understood, but is not intended to limit the invention The invention includes the description using a name of component without a part of or all of the limitation on the shape and the material etc.
The present invention is applicable to any pressing machines having a die-cushion device.
Number | Date | Country | Kind |
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2005-007800 | Jan 2005 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP06/00290 | 1/12/2006 | WO | 00 | 7/10/2007 |