US1935854A - Punch press for forming sheet metal shells - Google Patents

Punch press for forming sheet metal shells Download PDF

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US1935854A
US1935854A US572645A US57264531A US1935854A US 1935854 A US1935854 A US 1935854A US 572645 A US572645 A US 572645A US 57264531 A US57264531 A US 57264531A US 1935854 A US1935854 A US 1935854A
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die
blanks
dies
punches
frame
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US572645A
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Miller A Mccreary
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HEGELER ZINC Co
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HEGELER ZINC Co
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21DWORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21D24/00Special deep-drawing arrangements in, or in connection with, presses
    • B21D24/005Multi-stage presses
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/444Tool engages work during dwell of intermittent workfeed
    • Y10T83/4577Work fed successively to plural tools
    • Y10T83/4579With change of direction between tools

Definitions

  • This invention relates to punch presses designed and adapted for forming or drawing sheet metal shells, comprising a plurality of sets or series of co-operating dies andpunches adapted 5 for simultaneous operation and arranged to act in succession on blanks delivered thereto, to progressively draw or deform the same from the initial blanks to the finished shells, whereby a completed shell will be produced at each stamping operation.
  • a principal object of the invention is to provide a punch press for the purpose specified, in which the dies and punches are arranged in separate sets, each operating on a separate blank in a different stage of deformation, all of the punches being operatively connected so as to work together, thereby producing a completed shell at each stamping or punching operation.
  • a further object of the invention is to provide a machine for the purpose specified, in which the work will always be visible and readily accessible, thus permitting the operator to detect and remove defective shells, or shells which may become jammed in the dies in the operation of the machine.
  • Still a further object of the invention is to provide a machine for the purpose specified, in which the dies are so arranged that, after each punching operation, blanks in process may be delivered from one set of dies and punches to the next succeeding set, and which, preferably, comprises transfer or feeding means for delivering blanks ..in process from each set of dies and punches to the next succeeding set.
  • Still a further object of the invention is to provide improved means for supporting and simultaneously operating the punches.
  • Fig. 1 is a side view, partly in section, of what I now consider a preferably form of punch press embodying my invention and improvements.
  • Fig. 2 is a view substantially similar to Fig. 1, showing modifiedmeans for supporting and actu- 50 atlng the punches, in operation;
  • Fig. 3 is a fragmentary view of the blank transfer mechanism substantially from the position 3-3 of Fig. 1.
  • the frame A comprises posts or pillars 1, the lower ends of which rest upon a suitable base or foundation, the line of which is indicated at 2.
  • Said frame also comprises a box structure 3 connected to and which rigidly connects the upper ends of said posts or pillars 1.
  • the die assembly B is supported on spaced members 4 which form part of the machine frame, and comprises a plurality of separate die units b secured to the supporting members 4 in spaced relation to each other and at successively lower levels, from the initial to the final die.
  • each of the die units b consists of a hollow die-block 5 comprising a bottom plate 6, side plates 7 and a top or bolster plate 8, rigidly secured together to form a unitary structure and which, preferably, are cast integral with each other.
  • the openings 9 in the die-blocks 5 are proportioned to receive the stampings formed by said dies, respectively, with sufficient clearance to permit said stampings to move freely therein to provide for delivering said stampings to a succeeding die after each stamping operation.
  • the dies 10 are secured in recesses 11 formed in the bolster plates 8, with the top surfaces in or slightly below the planes of the top surfaces-of the bolster plates 8, respectively, and to provide for aligning the dies with the punches and the punch assembly, presently described, the dieblocks are secured to the frame members 4 so as to be adjustable in all directions, simple means for this purpose consisting of clamping screws which have threaded engagement with holes formed in the frame members 4 and which extend through holes formed in the die-blocks 5, said holes being larger than the shanks of the screws say one-eighth inch /8) As shown, the die-blocks 5 are supported in such relation to each other that the upper surfaces of the bottom plate of one die-block and of the top or bolster plate of the adjacent succeeding die-block will be in the same plane.
  • said die-blocks are made of such length that the ends of adjacent die-blocks will abut against each other, thus providing continuous supporting surfaces along which blanks, in process, discharged from one die may be delivered in operative position to the adjacent succeeding die, the position of the blanks relative to the die openings, being defined by suitable stops arranged to position the blanks concentric, as near as may be, with the die opening.
  • the initial die 10 is a blanking die adapted for stamping blanks from a thin sheet of metal shown at 13, which may be fed endwise transversely of said die assembly with a step-bystep motion during the intervals between successive punching or drawing operations. If desired, however, my invention contemplates equally forming the blanks as a separate operation, and feeding them to the machine either by hand or by mechanical means provided for the purpose.
  • the dies 10 are provided, respectively, with holes or openings of successively smaller diameters, the variation in the size thereof depending upon the number of drawing or deforming operations to which the blanks are subjected, the size of the final die opening conforming to the contemplated outside diameter of the finished article.
  • the punch assembly C is mounted above and in co-operating relation to the die assembly B and comprises a fixed guide frame 14, mounted in bearings in which are plungers 15 secured to the lower ends of which are punches 16, each of said punches, excepting the blanking punch being sufliciently smaller than its die opening to provide clearance between said punches and their respective die openings to subject the blanks operated upon thereby to contemplated drawing action, which will operate, in a usual manner, to elongate said blanks and reduce their outside diameters.
  • reciprocating movement is adapted to be imparted to the plungers 15 by means of suitable connection between their upper ends and a member 17 pivoted at 18 to the frame of the machine, the connection between said plungers and the member 17 comprising links 19 pivoted to the member 17 by means of rods 20, said links being connected to said plungers by means of ball and socket joints 21 which, as shown, are formed at the lower ends of rods 22 adjustably secured to the links 19 by clamps 23 formed at the lower ends of said rods or links, as shown.
  • the ball joint connections will operate, in an obvious manner, to relieve the plungers 15 from all tendency to bind in their bearings, due to the pivotal movementof the member 17.
  • oscillation is imparted to the member 17 by a pitman rod 24 which pivotally connects a pin 25 secured therein with a crank shaft 26 rotatably mounted in journal boxes secured to the top of the box member 3 of the machine frame and adapted to be driven by a belt, not shown, applied to a pulley 2'7 on said shaft.
  • my improved punch press comprises means for transferring the blanks in process from one die to the adjacent succeeding die, whereby the operation of the machine is rendered automatic so that it may run continuously.
  • said transfer means comprise push blocks 29, slidable in the openings 9 in the die supporting block 5, said push blocks being secured to the ends of rods 30, the opposite ends of which are secured to an upright bar 31 pivoted at the ends of arms 32 formed on a frame member 33 pivotally mounted between the ends of hubs or bosses 34 formed on brackets 35 and 36 secured to the adjacent post or pillar 1 of the machine frame.
  • oscillating movement is adapted to be imparted to the frame member 33, thereby imparting reciprocating movement to the rods 30 and the push blocks 29 by a cam 37 secured to rotate with a shaft 38 rotatably mounted in brackets 39 secured to the adjacent frame post or pillar 1, rotation in operation being imparted to said cam shaft and cam by driving connection with the crank shaft 26 consisting, as shown, of a shaft 40 rotatably mounted in bearing bosses 41 on the machine frame, bevel gears 42 on which mesh with bevel gears 43 secured to the crank shaft 26 and to the cam shaft 38, respectively.
  • a cam groove 44 Formed in the surface of the cam 37 is a cam groove 44 which is engaged by a roller stud 45 mounted at the end of an arm on the frame member 33, the relation being such that rotation of said cam will impart oscillating movement to said member 33 and through it, reciprocating movement to the rods 30 and push blocks 29.
  • the punch assembly comprises a crosshead mounted to reciprocate in bearings formed on the posts or pillars of the press frame, to which reciprocating movement is imparted in operation by pitman rods, an end of each of which is pivoted to saidcross-head and their opposite ends to cranks on a crank shaft mounted to rotate in bearings in members of the machine frame, the plungers in which the punches are secured, being rigidly attached to said cross-head and the lengths thereof being proportioned so as to impart contemplated movement to the punches in operation.
  • the punch assembly comprises a crosshead mounted to reciprocate in bearings formed on the posts or pillars of the press frame, to which reciprocating movement is imparted in operation by pitman rods, an end of each of which is pivoted to saidcross-head and their opposite ends to cranks on a crank shaft mounted to rotate in bearings in members of the machine frame, the plungers in which the punches are secured, being rigidly attached to said cross-head and the lengths thereof being proportioned so as to impart contemplate
  • the cross-head to which the punches 16 are secured, the ends of said cross-head being slidably fitted to bearings 48 on the posts or pillars 1 of the press, and reciprocating movement is adapted to be imparted thereto by suitable connection between said cross-head, and a shaft 49, consisting, as shown, of pitman rods 50, the lower ends of which are pivotally connected to said cross-head by pins 51 and formed in the upper ends of which are bearings fitted to crank pins 52 on the crank shaft 49.
  • the crank shaft is driven from a suitable source of power by means of a belt, not shown, applied to a driving pulley 53 secured to said crank shaft.
  • the thrust sustained by the crank shaft 49, due to the operation of the punches 150 15, is absorbed by a segmental thrust bearing indicated at 54, secured to the frame member 3 which connects the upper ends of the'posts or pillars 1 of the frame of the machine, to which the top side of the crank shaft is fitted.
  • a punch press embodying my invention and improvements may be equipped with usual accessory devices, such as pressure blank holders maintained yielding under desired operating tension by compressedair or steel or rubber spring; or special stripping devices; or knockouts, which the character of the work to be performed may require.
  • accessory devices such as pressure blank holders maintained yielding under desired operating tension by compressedair or steel or rubber spring; or special stripping devices; or knockouts, which the character of the work to be performed may require.
  • Such devices are old and well known and can readily be supplied by mechanics skilled in the art without the exercise of invention and need not, therefore. be shown or described in detail.
  • ma punch press for subjecting sheet metal blanks to successive drawing operations, the combination of a frame and correlated punch and die assemblies mounted therein, the die assembly comprising a plurality of separate, fixed dies, and means for supporting said dies in spaced relation to each other and at successively lower levels from the initial to the final die, means defining passageways beneath said dies arranged to receive blanks in process therefrom, respectively, proportioned to permit blanks delivered thereto to move freely therealong, the bottoms of said passageways forming continuous supporting surfaces along which blanks are delivered from one die to the adjacent succeeding die, and the relation being such that at each drawing operation the blanks will be forced entirely through the dies to which they are successively presented.
  • the die supporting means comprises plates provided in their top surfaces with recesses to receive said dies with the top surfaces of said plates and dies flush with each other.
  • the punch assembly comprises plungers to which different punches are secured, means for supporting and guiding said plungers, and means for simultaneously reciprocating the same.
  • the punch assembly comprises plungers to which different punches are secured, a fixed guide-framesupported on the machine frame provided with bearings in which said plungers are mounted to reciprocate, an actuating member pivoted at one end to the machine frame, means flexibly connecting the punch supporting plungers with said pivoted member at different distances from its pivot, and means for oscillating said member.
  • the punch assembly comprises plungers to which different punches are secured, a. fixed guide-frame supported on the machine frame provided with bearings in which said plungers reciprocate, an actuating member pivoted at one end to the machine frame, means flexibly connecting the punch supporting plungers with said pivoted member at different distances from its pivot, comprising links pivoted to said pivoted member, ball and socket joints connecting said links with said plungers, and means for oscillating said member.
  • a punch press for subjecting sheet metal blanks to successive drawing operations, I the combination of a frame, correlated punch and die assemblies comprising a plurality of punches and dies supported on said frame in spaced relation to each other, respectively, the punch assembly comprising plungers to which different punches are secured, and means for simultaneously, imparting reciprocating strokes of different lengths to said plungers and punches:
  • the means for reciprocating said plungers and punches comprises a member pivoted to the frame, means flexibly connecting said plungers to said pivoted member at different distances from its pivot, and means for oscillating said pivoted member.
  • the die supporting means comprises die blocks provided with passageways proportioned to receive blanks in process from said dies, respectively, the top surfaces of said die blocks being provided with recesses to receive said dies with the top surfaces of said dies and die blocks flush with each other, and the bottoms of the passageways in said die blocks being flush with the top surfaces of adjacent succeeding die blocks, respectively, providing a continuous supporting surface along which blanks in process may be delivered from one die to the adjacent succeeding die.
  • the combination specified in claim 13 which also comprises means for transferring blanks in process from said dies, respectively, to theadjacent succeeding die, comprising push blocks, an oscillating frame, rods which connect said blocks with said frame, and means for imparting 05011? lating movement to said frame to reciprocate said rods.

Description

Nov. "21, 1933.
Filed Nov. 2, 1931 2 Shets-Sheet 1 Jive/2%" Nov. 21, 1933. McCREARY 1,935,854
PUNCH PRESS FOR FORMING SHEET METAL SHELLS Filed Nov. 2. 1931 2 Sheets-Sheet 2 Patented Nov. 21, 1933 UNITED STATES PATENT OFFICE The Hegeler Zinc Company, Danville, 111., a corporation of Illinois LLS JUN 2+1942 Application November 2, 1931. Serial No. 572,645
13 Claims.
This invention relates to punch presses designed and adapted for forming or drawing sheet metal shells, comprising a plurality of sets or series of co-operating dies andpunches adapted 5 for simultaneous operation and arranged to act in succession on blanks delivered thereto, to progressively draw or deform the same from the initial blanks to the finished shells, whereby a completed shell will be produced at each stamping operation.
A principal object of the invention is to provide a punch press for the purpose specified, in which the dies and punches are arranged in separate sets, each operating on a separate blank in a different stage of deformation, all of the punches being operatively connected so as to work together, thereby producing a completed shell at each stamping or punching operation.
A further object of the invention is to provide a machine for the purpose specified, in which the work will always be visible and readily accessible, thus permitting the operator to detect and remove defective shells, or shells which may become jammed in the dies in the operation of the machine.
Still a further object of the invention is to provide a machine for the purpose specified, in which the dies are so arranged that, after each punching operation, blanks in process may be delivered from one set of dies and punches to the next succeeding set, and which, preferably, comprises transfer or feeding means for delivering blanks ..in process from each set of dies and punches to the next succeeding set.
Still a further object of the invention is to provide improved means for supporting and simultaneously operating the punches.
To effect the objects thereof, a punch press embodying my invention and improvements, to comprises the various features, combinations of features and details of construction hereinafter described and claimed.
In the accompanying drawings in which the invention is fully illustrated,
Fig. 1 is a side view, partly in section, of what I now consider a preferably form of punch press embodying my invention and improvements.
Fig. 2 is a view substantially similar to Fig. 1, showing modifiedmeans for supporting and actu- 50 atlng the punches, in operation; and
Fig. 3 is a fragmentary view of the blank transfer mechanism substantially from the position 3-3 of Fig. 1.
7 Describing the invention with reference to the 65 drawings and referring particularly to Fig. 1, in
REFSSUED the first instance, in which I have shown. what I now consider a preferably form of punch press embodying my invention and improvements, A designates the frame of the machine as a whole, B the die assembly as a whole, and C the punch assembly as a whole.
The frame A comprises posts or pillars 1, the lower ends of which rest upon a suitable base or foundation, the line of which is indicated at 2. Said frame also comprises a box structure 3 connected to and which rigidly connects the upper ends of said posts or pillars 1.
As shown, the die assembly B is supported on spaced members 4 which form part of the machine frame, and comprises a plurality of separate die units b secured to the supporting members 4 in spaced relation to each other and at successively lower levels, from the initial to the final die.
As shown, each of the die units b consists of a hollow die-block 5 comprising a bottom plate 6, side plates 7 and a top or bolster plate 8, rigidly secured together to form a unitary structure and which, preferably, are cast integral with each other. The openings 9 in the die-blocks 5 are proportioned to receive the stampings formed by said dies, respectively, with sufficient clearance to permit said stampings to move freely therein to provide for delivering said stampings to a succeeding die after each stamping operation.
The dies 10 are secured in recesses 11 formed in the bolster plates 8, with the top surfaces in or slightly below the planes of the top surfaces-of the bolster plates 8, respectively, and to provide for aligning the dies with the punches and the punch assembly, presently described, the dieblocks are secured to the frame members 4 so as to be adjustable in all directions, simple means for this purpose consisting of clamping screws which have threaded engagement with holes formed in the frame members 4 and which extend through holes formed in the die-blocks 5, said holes being larger than the shanks of the screws say one-eighth inch /8) As shown, the die-blocks 5 are supported in such relation to each other that the upper surfaces of the bottom plate of one die-block and of the top or bolster plate of the adjacent succeeding die-block will be in the same plane. Also, said die-blocks are made of such length that the ends of adjacent die-blocks will abut against each other, thus providing continuous supporting surfaces along which blanks, in process, discharged from one die may be delivered in operative position to the adjacent succeeding die, the position of the blanks relative to the die openings, being defined by suitable stops arranged to position the blanks concentric, as near as may be, with the die opening.
As shown, the initial die 10 is a blanking die adapted for stamping blanks from a thin sheet of metal shown at 13, which may be fed endwise transversely of said die assembly with a step-bystep motion during the intervals between successive punching or drawing operations. If desired, however, my invention contemplates equally forming the blanks as a separate operation, and feeding them to the machine either by hand or by mechanical means provided for the purpose.
The dies 10 are provided, respectively, with holes or openings of successively smaller diameters, the variation in the size thereof depending upon the number of drawing or deforming operations to which the blanks are subjected, the size of the final die opening conforming to the contemplated outside diameter of the finished article.
As shown, also, the punch assembly C is mounted above and in co-operating relation to the die assembly B and comprises a fixed guide frame 14, mounted in bearings in which are plungers 15 secured to the lower ends of which are punches 16, each of said punches, excepting the blanking punch being sufliciently smaller than its die opening to provide clearance between said punches and their respective die openings to subject the blanks operated upon thereby to contemplated drawing action, which will operate, in a usual manner, to elongate said blanks and reduce their outside diameters.
In operation, reciprocating movement is adapted to be imparted to the plungers 15 by means of suitable connection between their upper ends and a member 17 pivoted at 18 to the frame of the machine, the connection between said plungers and the member 17 comprising links 19 pivoted to the member 17 by means of rods 20, said links being connected to said plungers by means of ball and socket joints 21 which, as shown, are formed at the lower ends of rods 22 adjustably secured to the links 19 by clamps 23 formed at the lower ends of said rods or links, as shown. The ball joint connections will operate, in an obvious manner, to relieve the plungers 15 from all tendency to bind in their bearings, due to the pivotal movementof the member 17.
In operation, oscillation is imparted to the member 17 by a pitman rod 24 which pivotally connects a pin 25 secured therein with a crank shaft 26 rotatably mounted in journal boxes secured to the top of the box member 3 of the machine frame and adapted to be driven by a belt, not shown, applied to a pulley 2'7 on said shaft.
Due to the fact that the blanks in process are elongated by each successive punching or drawing operations, it is obvious that the axial drawing movement of the different punches will increase progressively from the initial to the final punch, and a particular advantage of the construction in which the punches are actuated by the pivoted member 17 is that desired differential movement may be imparted to the different punches by connecting them to said pivoted member at different distances from its pivoted end, corresponding to contemplated axial movement thereof, respectively, whereby each punch will be moved through arcs of different lengths corresponding to predetermined axial movement of said punches, respectively.
In the preferable construction shown, my improved punch press comprises means for transferring the blanks in process from one die to the adjacent succeeding die, whereby the operation of the machine is rendered automatic so that it may run continuously.
As shown, said transfer means comprise push blocks 29, slidable in the openings 9 in the die supporting block 5, said push blocks being secured to the ends of rods 30, the opposite ends of which are secured to an upright bar 31 pivoted at the ends of arms 32 formed on a frame member 33 pivotally mounted between the ends of hubs or bosses 34 formed on brackets 35 and 36 secured to the adjacent post or pillar 1 of the machine frame. In operation, oscillating movement is adapted to be imparted to the frame member 33, thereby imparting reciprocating movement to the rods 30 and the push blocks 29 by a cam 37 secured to rotate with a shaft 38 rotatably mounted in brackets 39 secured to the adjacent frame post or pillar 1, rotation in operation being imparted to said cam shaft and cam by driving connection with the crank shaft 26 consisting, as shown, of a shaft 40 rotatably mounted in bearing bosses 41 on the machine frame, bevel gears 42 on which mesh with bevel gears 43 secured to the crank shaft 26 and to the cam shaft 38, respectively. Formed in the surface of the cam 37 is a cam groove 44 which is engaged by a roller stud 45 mounted at the end of an arm on the frame member 33, the relation being such that rotation of said cam will impart oscillating movement to said member 33 and through it, reciprocating movement to the rods 30 and push blocks 29.
Instead of the punch assembly C shown in Fig. 1 and heretofore described, I contemplate, as a modification of the invention, a construction in which the punch assembly comprises a crosshead mounted to reciprocate in bearings formed on the posts or pillars of the press frame, to which reciprocating movement is imparted in operation by pitman rods, an end of each of which is pivoted to saidcross-head and their opposite ends to cranks on a crank shaft mounted to rotate in bearings in members of the machine frame, the plungers in which the punches are secured, being rigidly attached to said cross-head and the lengths thereof being proportioned so as to impart contemplated movement to the punches in operation. 125
This modification is shown in Fig. 2 of the drawings and will now be described. As regards features which are the same or substantially so, as corresponding parts of the press shown in Fig. 1, said parts are designated by the same reference characters in both figures and will be readily understood from an inspection of the drawings without a separate description thereof in detail.
In the punch assembly C, 47 is the cross-head to which the punches 16 are secured, the ends of said cross-head being slidably fitted to bearings 48 on the posts or pillars 1 of the press, and reciprocating movement is adapted to be imparted thereto by suitable connection between said cross-head, and a shaft 49, consisting, as shown, of pitman rods 50, the lower ends of which are pivotally connected to said cross-head by pins 51 and formed in the upper ends of which are bearings fitted to crank pins 52 on the crank shaft 49. The crank shaft is driven from a suitable source of power by means of a belt, not shown, applied to a driving pulley 53 secured to said crank shaft.
As shown, the thrust sustained by the crank shaft 49, due to the operation of the punches 150 15, is absorbed by a segmental thrust bearing indicated at 54, secured to the frame member 3 which connects the upper ends of the'posts or pillars 1 of the frame of the machine, to which the top side of the crank shaft is fitted.
Within the scope and contemplation of the invention, a punch press embodying my invention and improvements may be equipped with usual accessory devices, such as pressure blank holders maintained yielding under desired operating tension by compressedair or steel or rubber spring; or special stripping devices; or knockouts, which the character of the work to be performed may require. Such devices are old and well known and can readily be supplied by mechanics skilled in the art without the exercise of invention and need not, therefore. be shown or described in detail.
I claim:
' 1. ma punch press for subjecting sheet metal blanks to successive drawing operations, the combination of a frame and correlated punch and die assemblies mounted therein, the die assembly comprising a plurality of separate, fixed dies, and means for supporting said dies in spaced relation to each other and at successively lower levels from the initial to the final die, means defining passageways beneath said dies arranged to receive blanks in process therefrom, respectively, proportioned to permit blanks delivered thereto to move freely therealong, the bottoms of said passageways forming continuous supporting surfaces along which blanks are delivered from one die to the adjacent succeeding die, and the relation being such that at each drawing operation the blanks will be forced entirely through the dies to which they are successively presented.
2. The combination specified in claim 1, in which the die supporting means comprises plates provided in their top surfaces with recesses to receive said dies with the top surfaces of said plates and dies flush with each other.
3. The combination specified in claim 1, which comprises guide stops arranged to position blanks in process relative to the different dies.
4. The combination specified in claim 1, in which the punch assembly comprises plungers to which different punches are secured, means for supporting and guiding said plungers, and means for simultaneously reciprocating the same.
5. The combination specified in claim 1, in which the punch assembly comprises plungers to which different punches are secured, a fixed guide-framesupported on the machine frame provided with bearings in which said plungers are mounted to reciprocate, an actuating member pivoted at one end to the machine frame, means flexibly connecting the punch supporting plungers with said pivoted member at different distances from its pivot, and means for oscillating said member.
6. The combination specified in claim 1, in which the punch assembly comprises plungers to which different punches are secured, a. fixed guide-frame supported on the machine frame provided with bearings in which said plungers reciprocate, an actuating member pivoted at one end to the machine frame, means flexibly connecting the punch supporting plungers with said pivoted member at different distances from its pivot, comprising links pivoted to said pivoted member, ball and socket joints connecting said links with said plungers, and means for oscillating said member.
7. In a punch press for subjecting sheet metal blanks to successive drawing operations, I the combination of a frame, correlated punch and die assemblies comprising a plurality of punches and dies supported on said frame in spaced relation to each other, respectively, the punch assembly comprising plungers to which different punches are secured, and means for simultaneously, imparting reciprocating strokes of different lengths to said plungers and punches:
8. The combination specified in claim 7, in which the means for reciprocating said plungers and punches comprises a member pivoted to the frame, means flexibly connecting said plungers to said pivoted member at different distances from its pivot, and means for oscillating said pivoted member.
9. The combination specified in claim 1, in
which the die supporting means comprises die blocks provided with passageways proportioned to receive blanks in process from said dies, respectively, the top surfaces of said die blocks being provided with recesses to receive said dies with the top surfaces of said dies and die blocks flush with each other, and the bottoms of the passageways in said die blocks being flush with the top surfaces of adjacent succeeding die blocks, respectively, providing a continuous supporting surface along which blanks in process may be delivered from one die to the adjacent succeeding die.
10. The combination specified in claim 1, which also comprises means for transferring blanks in process from said dies, respectively, to the next succeeding die.
11. The combination specified in claim 1, which also comprises means for transferring blanks in process from said dies, respectively, to the adjacent succeeding die, and stops for positioning said blanks relative to the dies to which they are transferred.
12. The combination specified in claim 1, which also comprises push means for transferring blanks in process from said dies, respectively, to the next succeeding die, and means for reciprocating the same.
13. The combination specified in claim 1, which also comprises means for transferring blanks in process from said dies, respectively, to theadjacent succeeding die, comprising push blocks, an oscillating frame, rods which connect said blocks with said frame, and means for imparting 05011? lating movement to said frame to reciprocate said rods.
m A. MCCREARY.
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2594552A (en) * 1948-02-02 1952-04-29 Smith Corp A O Angular piercing tool
US2843070A (en) * 1953-03-24 1958-07-15 Williston Seamless Can Company Machines for shaping seamless metal cans and the like
US2891596A (en) * 1953-07-08 1959-06-23 Babcock & Wilcox Co Manipulating mechanism for heavy duty metal working presses
DE1102685B (en) * 1957-07-26 1961-03-23 Broekelmann Jaeger & Busse K G Machine for processing sleeves, capsules, cap closures or the like.
US4987762A (en) * 1989-12-08 1991-01-29 Sterns Metals Inc. Individually variable multi-station drawing apparatus
US5062287A (en) * 1990-01-19 1991-11-05 Dayton Reliable Tool & Mfg. Co. Method and apparatus for making and transferring shells for cans
US5067341A (en) * 1990-01-19 1991-11-26 Dayton Reliable Tool & Mfg. Co. Transfer plate lifts for shell press
US20080250840A1 (en) * 2007-04-11 2008-10-16 Greatbatch-Globe Tool, Inc. In die transfer apparatus

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2594552A (en) * 1948-02-02 1952-04-29 Smith Corp A O Angular piercing tool
US2843070A (en) * 1953-03-24 1958-07-15 Williston Seamless Can Company Machines for shaping seamless metal cans and the like
US2891596A (en) * 1953-07-08 1959-06-23 Babcock & Wilcox Co Manipulating mechanism for heavy duty metal working presses
DE1102685B (en) * 1957-07-26 1961-03-23 Broekelmann Jaeger & Busse K G Machine for processing sleeves, capsules, cap closures or the like.
US4987762A (en) * 1989-12-08 1991-01-29 Sterns Metals Inc. Individually variable multi-station drawing apparatus
US5062287A (en) * 1990-01-19 1991-11-05 Dayton Reliable Tool & Mfg. Co. Method and apparatus for making and transferring shells for cans
US5067341A (en) * 1990-01-19 1991-11-26 Dayton Reliable Tool & Mfg. Co. Transfer plate lifts for shell press
US20080250840A1 (en) * 2007-04-11 2008-10-16 Greatbatch-Globe Tool, Inc. In die transfer apparatus
US8006536B2 (en) * 2007-04-11 2011-08-30 Greatbatch Ltd. Die transfer apparatus

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