Slug-retaining punch press tool

Abstract
A punch and die tool for cutting a slug from a sheet of material that is retained in the opening of the die and does not adhere to or follow the punch on its upward stroke, and a method for retaining a slug in a die, are disclosed. The die is formed with one or more irregularities or grooves on the edge of the die face so that the slug cut by the operation of the punch and die will have a burr on its edge. The burr causes the slug to lodge in the inside surface of the die and prevents the slug from following the punch on its upward stroke.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




This invention relates generally to a punch press tool, and, in particular, to an IC chip fabrication punch press tool capable of cutting and removing material of relatively small dimensions.




2. Description of the Related Art




A punch press is a device used to cut a hole of predetermined size in a workpiece, often sheet metal. (See

FIG. 1.

) A punch press typically consists of a punch


1


and a die


2


, which are often fabricated from hardened steel or steel alloy. The end of the punch


1


, called the punch face


3


, and the edge of the opening


4


of the die are sharpened so that on the down stoke of the punch


1


, the punch face


3


contacts and pushes through a workpiece


5


into the die opening, thereby cutting a hole in the workpiece


5


in the size and shape of the punch


1


and die


2


. (See

FIGS. 2-4

.) The piece of sheet metal or other material that is cut from the workpiece during the operation of the punch press is called a “slug”


6


.




“Slug-pulling” is a recurring problem in the operation of high-speed punch presses, particularly in the computer chip fabrication process. Slug-pulling refers to the tendency of a slug


6


to follow or adhere to the punch face


3


during the return stroke of the punch


1


and to lodge at or near the plane of the workpiece


5


or die opening


4


, thereby creating a variety of problems as the workpiece


5


is moved quickly past the punch


1


and die


2


in subsequent punching operations. Slug-pulling can reduce the efficiency of punch press operations, thereby resulting in reduced throughput, lower yields, and higher manufacturing costs.




Punch press manufacturers have adopted various means to retard or prevent slug-pulling. One solution involves carving a groove


7


in the inside surface of the die


2


, with the groove


7


extending in the direction of movement of the reciprocating punch


1


. (See

FIG. 5.

) The slug formed by such a die


2


will tend to become jammed against the inside surface of the die


2


and will not adhere to the punch face


3


as the punch


1


is retracted from the die


2


. Because of the difficulty and expense involved in machining a groove


7


on the inside surface of the die


2


, particularly a die


2


of relatively small dimensions, this solution has not proved satisfactory.




Another solution involves adding a protrusion


8


to the inside surface of the die


2


, with the protrusion


8


extending toward the center of the die


2


. (See

FIG. 6.

) A slug formed by such a die


2


will tend to be retained by the protrusion


8


. Once again, because of the difficulty and expense involved in forming such a protrusion


8


on the inside surface of the die


2


, particularly a die


2


with relatively small dimensions, this solution to the slug-pulling problem has not gained wide popularity.




SUMMARY OF THE INVENTION




Accordingly, it is a principle object and advantage of the present invention to overcome some or all of these limitations and to provide an improved slug-retaining punch press tool.




In accordance with one embodiment, the present invention comprises a punch press for removing dambars from the leadframe of an IC chip package. One or more irregularities are formed on the edge of the die face of the dambar die so that the dambar that is cut and removed by the operation of the punch press will have one or more burrs on its perimeter. In another embodiment, the edge of the die face has a plurality of irregularities. In still another embodiment, the irregularities are V-shaped grooves of specific dimensions. In yet another embodiment, two V-shaped grooves are formed symmetrically, at opposite edges of the die face.




In another embodiment, the present invention comprises a punch and die, the die having one or more irregularities at its opening perimeter so that the slug that is cut and removed by the operation of the punch press will have one or more burrs on its edge. In another embodiment, the opening perimeter of the die has a plurality of irregularities. In still another embodiment, the irregularities are grooves.




In another embodiment, the present invention comprises a punch and die that conform at all locations along their respective perimeters, except at one or more locations at which they do not conform. The locations at which they do not conform are shaped so that the slug that is cut and removed by the operation of the punch and die will have a burr on its perimeter.




In one embodiment, a method comprises forming a punch and die with an irregularity on the die face of the die, placing a sheet of material between the punch and die, pressing the punch through the material and into the opening of the die thereby cutting and removing a slug with a burr on its edge, retracting the punch from the die, and using the burr to prevent the slug from adhering to and following the punch as it is retracted from the die. In another embodiment, the method comprises forming a plurality of irregularities on the die face.




In another embodiment, a method comprises forming a punch and die with an irregularity on the die face of the die and employing the punch and die to cut a slug from a sheet of material with a burr on its edge so that the burr will prevent the slug from adhering to and following the punch as it is retracted from the die. In another embodiment, the method comprises forming a plurality of irregularities on the die face.




In another embodiment, a method comprises pressing a punch face through a sheet of material and forming a burr of the edge of the slug thereby cut from the material, which burr lodges against the smooth surface of the opening of the die and prevents the slug from adhering to and following the punch as it is retracted from the die. In another embodiment, the method comprises forming a plurality of burrs on the slug.




For purposes of summarizing the invention and the advantages achieved over the prior art, certain objects and advantages of the invention have been described herein above. Of course, it is to be understood that not necessarily all such objects or advantages may be achieved in accordance with any particular embodiment of the invention. Thus, for example, those skilled in the art will recognize that the invention may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught herein without necessarily achieving other objects or advantages as may be taught or suggested herein.




All of these embodiments are intended to be within the scope of the invention herein disclosed. These and other embodiments of the present invention will become readily apparent to those skilled in the art from the following detailed description of the preferred embodiments having reference to the attached figures, the invention not being limited to any particular preferred embodiment disclosed.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a perspective view of a prior art punch and die.





FIG. 2

is a partially cut away, cross-sectional view of a prior art punch and die showing the punch as it enters a workpiece during a punching operation





FIG. 3

is a view of a prior art punch and die similar to that of

FIG. 2

, but showing the punch further extended into the die.





FIG. 4

is a view of a prior art punch and die similar to that of

FIGS. 2 and 3

, but showing the punch retracted from the die and the slug retained therein.





FIG. 5

is a partially cut away, cross-sectional view of a prior art punch and die with a groove carved in the inside surface of the die.





FIG. 6

is a partially cut away, cross-sectional view of a prior art punch and die with a protrusion formed on the inside surface of the die.





FIG. 7

is a partially cut away, perspective view of an IC chip package and leadframe.





FIG. 8

is a view similar to that of

FIG. 7

, but showing the IC chip package after the leads have been separated.





FIG. 9

is a perspective view of a punch and dambar die of the invention.





FIG. 10

is a perspective view of a punch and die of the invention showing the punch as it enters a workpiece during a punching operation.





FIG. 11

is a view similar to that of

FIG. 10

, but showing the punch further extended into the die.





FIG. 12

is a view similar to that of

FIGS. 10 and 11

, but showing the punch retracted from the die and the slug retained therein.





FIG. 13

is a perspective view of a punch and dambar die of the invention showing the slug retained in the die.





FIG. 14

is a perspective view of a die depicting an alternate embodiment of the invention.





FIG. 15

is a perspective view of a die depicting another alternate embodiment of the invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




The present invention involves a high-speed punch press tool, and a method of using a high-speed punch press tool, to remove dambars from a leadframe of an IC chip package and thereby to separate the leads of that IC chip package.





FIG. 7

is a partially cut away view showing the configuration of an IC chip package


9


and a leadframe


10


. The IC chip


11


within the IC chip package


9


contains the circuitry that defines and performs its electrical functions. The exterior body


12


of the IC chip package


9


is composed of plastic material formed by a method of transfer molding. The plastic exterior body


12


protects the sensitive and fragile circuitry of the IC chip


11


. Wires


13


connect the circuitry of the IC chip


11


to individual conductive leads


14


. The leads


14


, in turn, connect the circuitry of the IC chip


11


to the outside environment. The plastic exterior body


12


fixes the arrangement of individual leads


14


.




The leadframe


10


is ordinarily constructed of a highly conductive material, typically metal, formed in thin sheets, that is receptive to bending and forming while maintaining structural integrity. The sheet thickness of the leadframe


10


defines the thickness of the leads


14


. The leadframe


10


also defines the outer edges of the plastic exterior body


12


of the IC chip package


9


by means of structures


15


between the leads


14


that stop the flow of the liquid-phase polymer in the transfer molding process. Those structures


15


comprise dambars, and their placement between the leads


14


provides a contiguous strip of material along two sides of the IC chip package


9


. The presence of, and necessity for, dambars


15


on the leadframe


10


during the transfer molding process yield the result that, at this stage, all leads


14


on each side of the IC chip package


9


are electrically connected. Embodiments of the present invention address the removal of the dambars


15


during the IC chip package fabrication process, thereby providing electrical isolation for each lead


14


.

FIG. 8

is a partially cut away view showing the IC chip package after the removal of the dambars.





FIG. 9

is a perspective view of a punch


16


and a dambar die


17


, which are fabricated from hardened steel with the punch face


18


and the die face


19


of the dambar die


17


having sharp edges. During a typical punching operation, a leadframe


10


is located over the die face


19


of the dambar die


17


and beneath the punch


16


. The punch


16


is then pressed downwardly through the leadframe


10


and into the opening


20


of the dambar die


17


, thereby cutting and removing the dambar


15


from the leadframe


10


.




The die face


19


of the dambar die


17


is formed with one or more grooves


21


extending in a direction substantially perpendicular to the direction of movement of the reciprocating punch


16


and substantially perpendicular to the leads


14


. In the preferred embodiment, the die face


19


of the dambar die


17


has two grooves


21


positioned on opposite sides of the die face


19


, and each groove


21


is substantially V-shaped with a width “w” at the die face


19


of the dambar die


17


of approximately 0.10 millimeters and a depth “D” of approximately 0.09 millimeters. The grooves


21


are carved into the die face


19


of the dambar die


17


by a standard surface grinder using a properly dressed grinding wheel.





FIGS. 10-12

depict perspective views of the punching operation. A leadframe


10


is located above the dambar die


17


and beneath the punch


16


so that the dambar


15


to be removed from the leadframe


10


is precisely positioned between the punch face


18


and the die face


19


of the dambar die


17


. The punch


16


is then brought down with great force, first pressing the punch face


18


downwardly against the leadframe


10


then, in the same stroke, continuing to drive the punch face


18


downwardly through the leadframe


10


, past the die face


19


, and into the opening of the dambar die


17


. The dambar


15


is thereby cut and removed from the leadframe


10


. The grooves


21


in the die face


19


of the dambar die


17


aid in preventing the slug


22


(i.e., the dambar that has been cut and removed from the leadframe


10


) from adhering to the punch face


18


during the return stroke of the punch


16


up and out of the opening of the dambar die


17


.




As the dambar


15


is cut from the leadframe


10


by the shearing force between the sharp punch face


18


and the sharp edge of the die face


19


of the dambar die


17


, the groove


21


will cause the slug


22


to be formed with a small distortion


23


on its perimeter. (See

FIG. 13.

) The distortion


23


on the slug


22


will tend to jam against the wall


24


of the opening of the dambar die


17


so that, on the return stroke of the punch


16


, the slug


22


will not follow or adhere to the punch face


18


, but will remain in the opening of the dambar die


17


or will fall out of the bottom of the dambar die


17


, the opening of which is slightly flared in the downward direction.




It is, of course, possible to carve one, two, or more grooves in the die face of the dambar die and still enjoy the slug-retaining benefit of the invention. The grooves need not be V-shaped, but may be deeper or shallower, or wider or thinner, than the dimensions of the grooves in the preferred embodiment. In addition, the irregularity carved into the die face of the dambar die need not be a groove, as any depression in the top edge of the opening of the die may perform the desired function. Also, the die need not be a dambar die, but may be a die of any type, shape, or size. (See

FIGS. 14 and 15

.)




In addition, although this invention has been disclosed in the context of certain preferred embodiments and examples, it will be understood by those skilled in the art that the present invention extends beyond the specifically disclosed embodiments to other alternative embodiments or uses of the invention and obvious modifications and equivalents thereof. Thus, it is intended that the scope of the present invention herein disclosed should not be limited by the particular disclosed embodiments described above, but should be determined only by a fair reading of the claims that follow.



Claims
  • 1. A method of cutting a slug from a sheet of material, comprising:forming a punch and die set, said punch including a punch face configured to cut the perimeter of said slug, and said die including a die face essentially parallel to said punch face with an opening for receiving said punch, said opening generally conforming to the perimeter of said slug; forming an irregularity on said die face, said irregularity extending essentially perpendicular to a direction of movement of said punch; placing said sheet of material between a punch and a corresponding die, the punch including a punch face configured to cut the perimeter of said slug, and said die including an opening for receiving said punch, said opening generally conforming to the perimeter of said die; pressing said punch face through said sheet of material into said opening in said die to cut sheet of material and simultaneously to create, at said die face irregularly, a burr at the edge of said slug; retracting said punch face from said sheet of material; and using said burr to prevent said slug from retracting with said punch face.
  • 2. The method of claim 1, wherein the irregularity forming step forms a plurality of irregularities.
  • 3. A method of forming a die set for cutting a slug from sheet metal comprising:forming a punch having a punch face conforming to said slug; forming a die having a die face essentially parallel to said punch face with an opening for receiving said punch face and said slug, said opening having a smooth surface; and forming an irregularity on said die face at the edge of said opening for forming a burr on edge of said slug.
  • 4. The method of claim 3, wherein the irregularity forming step forms a plurality of irregularities.
  • 5. A method of cutting a slug from a sheet of material, comprising:pressing a punch face through said sheet of material and into an opening in a die, the die including a die face essentially parallel to said punch face; and forming a burr on an edge of said slug which lodges against a smooth surface within said opening and prevents said slug from attaching to said punch face, wherein the burr is formed with an irregularity on said die face, said irregularity extending essentially perpendicular to a direction of movement of said punch face.
  • 6. The method of claim 5, wherein the burr forming step forms a plurality of burrs.
  • 7. The method of claim 3, wherein the irregularity extends outward from said edge essentially perpendicular to a direction of movement of said punch.
Parent Case Info

This application is a divisional of Ser. No. 09/443,807, filed Nov. 19, 1999, now U.S. Pat. No. 6,397,715, titled SLUG-RETAINING PUNCH PRESS TOOL. The entire contents of this previous application are hereby incorporated by reference herein and made a part of this specification.

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