Metal deforming – By use of non-deforming work-gripping clamp and relatively... – With interrelated clamp closer and tool mover
Reexamination Certificate
2001-06-07
2003-02-18
Crane, Daniel C. (Department: 3725)
Metal deforming
By use of non-deforming work-gripping clamp and relatively...
With interrelated clamp closer and tool mover
C072S387000, C072S452900
Reexamination Certificate
active
06519995
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a rotary cam driving apparatus in a negative-angle forming die for forming sheet metal. Herein, the negative-angle forming die is used for a formation made at a location more inward of a lower die half than a straight downward stroke line of an upper die half.
The negatively angled forming of a sheet metal into a shape having a portion more inward of the lower die half than the straight downward stroke line of the upper die half is generally performed by using a slide cam.
According to a prior-art intrusion forming process of the sheet metal work, the work is placed on the lower die half and the upper die half is lowered vertically. At this time a drive cam of the upper die half drives a driven cam of the lower die half, forming the work from the side. After the formation Is completed and the upper die half is lifted, then the driving cam is retracted by a spring. In the above arrangement, the driven cam slid onto the work from the side has a forming portion which is formed as a single piece in the same shape as the work as after the formation. The lower die half however, must allow the work to be taken out from the lower die half after the formation, and for this reason, a portion of the lower die half providing the intrusion formation must be made separable for retraction, or a rear portion thereof must be cut off so that the work can be moved forward and taken out. This does not pose a serious problem if the extent of the intrusion is small. However, the problem becomes serious if the extent of the intrusion is large, or if the work is to be formed into a long frame having a groove-like section such as in a formation of an automobile front pillar-outer from sheet metal. Specifically, since the groove width of the work is so narrow, that if the portion of the lower die half corresponding to the groove is divided or cut off, it becomes impossible for the forming portion of the driven cam to form clearly. In addition, strength of the lower die decreases. Thus, it was impossible to perform a clear-shaped intrusion formation.
Further, a formed product sometimes has a twist or distortion, which must be corrected. However, for example, many automobile parts that provide the outer skin of the automobile, such as a side panel, fender, roof, bonnet, trunk lid, door panel, front pillar-outer and so on, are formed to have a three-dimensional surface or line, and therefore it is practically impossible to make correction after the formation. In assembling the automobile sheet-metal parts, if there is a twist or distortion in the parts, it is difficult to fit the parts together.
Without solving this problem, it was impossible to provide a high quality automobile sheet metal structure, and it was impossible to maintain a required level of product accuracy in the formed sheet metal products. In order to solve the above-described problem, an arrangement was proposed, in which the straight downward stroke of the upper die half is converted to a rotary movement of a rotary cam to pivot to form the portion in the lower die half more inward than the straight downward stroke line of the upper die half. In this arrangement, after the forming operation, the rotary cam is pivoted back to a state where the completed work can be taken out of the lower die. This arrangement will be described in more detail.
Specifically, as shown in
FIG. 5
to
FIG. 8
, this negative-angle forming die comprises a lower die half
102
including a supporting portion
101
on which a work W is placed and an upper die half
103
which is lowered straightly down onto the lower die half
102
to press and thereby form the work W. The lower die half
102
is rotatably provided with a rotary cam
106
supported in an upwardly opening axial groove
104
. The groove
104
has a portion close to the supporting portion
101
formed with an intrusion forming portion
105
located more inward than a stroke line of the upper die half
103
. The lower die half
102
rotatably supports a rotary cam
106
. The upper die half
103
is provided with a slide cam
108
opposed to the rotary cam
106
and provided with an intrusion forming portion
107
. The lower die half is further provided with an automatic retractor
109
which moves the rotary cam
106
back to the sate that allows the work W to be taken out of the lower die half
102
after the formation. The work W placed on the supporting portion
101
of the lower die half
102
is formed by the intrusion forming portion
105
of the rotary cam
106
and the intrusion forming portion
107
of the slide cam
108
. The work W is formed by a rotary movement of the rotary cam
106
and a sliding movement of the slide cam
108
. After the formation, the automatic retractor
109
pivots back the rotary cam
106
, allowing the work W to be taken out of the lower die half
102
.
SUMMARY OF THE INVENTION
Now, an operation of this negative-angle forming die will be described.
First, as shown in
FIG. 5
, the upper die half
103
is positioned at its upper dead center. At this stage, the work W is placed on the supporting portion
101
of the lower die half
102
. The rotary cam
106
is held at its retracted position by the automatic retractor
109
.
Next, the upper die half
103
begins to lower, and first, as shown in
FIG. 6
, a lower surface of the slide cam
108
makes contact with a pivoting plate
111
without causing the slide cam
108
to interfere with the intrusion forming portion
105
of the rotary cam
106
, pivoting the rotary cam
106
clockwise as in
FIG. 10
, thereby placing the rotary cam
106
at a forming position. Then, a pad
110
presses the work W.
When the upper die half
103
continues to lower, the slide cam
108
, which is under an urge outward of the die half, begins a sliding movement as the sliding cam in a laterally leftward direction, against the urge from a coil spring
112
. This is the state shown in
FIG. 7
, where the intrusion forming portion
105
of the pivoted rotary cam
106
and the intrusion forming portion
107
of the slide cam
108
form the work W.
After the intrusion formation, the upper die half
103
begins to rise. The slide cam
108
, which is urged outwardly of the die half by the coil spring
112
, moves in a laterally rightward direction as in
FIG. 8
, and keeps rising without interfering with the work W as after the intrusion formation.
On the other hand, the rotary cam
106
is released from the holding by the slide cam
108
, and therefore is pivoted in a leftward direction as in
FIG. 8
by the automatic retractor
109
. Thus, when the work W is taken out of the lower die half after the intrusion formation, the work W can be removed without interference with the intrusion forming portion
105
of the rotary cam
106
.
The automatic retractor is essential for pivoting back the rotary cam after the intrusion formation, in order to take the formed work out of the lower die half as described above.
According to the above prior art, the automatic retractor is provided by a pin and coil spring. Generally, however, an air cylinder is often used.
If the air cylinder is used, the air cylinder must be timed to a specific period in the downward stroke of the pressing apparatus. Further, if the air cylinder is used, the air cylinder must be connected with piping of a specific diameter matched with the air cylinder. Although such a specific piping is prepared timely at an occasion of mass-production pressing operation, the piping of the matched size is often not available at a time of tryout production for example, in a preparation step for a full-scale production.
Now, in consideration of the background described above, the present invention aims to eliminate the need for the timing adjustment of the air cylinder operation at the time of pressing operation and to simplify the piping necessary for the air cylinder. In order to achieve the above objects, the present invention provides a rotary cam driving apparatus for a negative-angle forming die comprising a lower die half having
Birch & Stewart Kolasch & Birch, LLP
Crane Daniel C.
Umix Co., Ltd.
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