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Publication numberUS3249272 A
Publication typeGrant
Publication dateMay 3, 1966
Filing dateAug 13, 1964
Priority dateAug 13, 1964
Publication numberUS 3249272 A, US 3249272A, US-A-3249272, US3249272 A, US3249272A
InventorsScarpa Ralph
Original AssigneeArkay Packaging Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method and apparatus for stripping waste from a die cut sheet
US 3249272 A
Abstract  available in
Images(2)
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Claims  available in
Description  (OCR text may contain errors)

R. SCARPA May 3, 1966 METHOD AND APPARATUS FOR STRIPPING WASTE FROM A DIE CUT SHEET Filed Aug. 13, 1.964

2 Sheets-Sheet 1 INVENTOR. RALPH .scARPA ATTORNEYS.

y 1966 R. SCARPA 3,249,272

. METHOD AND APPARATUS FOR STRIPPING WASTE FROM A DIE CUT SHEET Filed Aug. 13, 1.964 2 Sheets-Sheet 2 INVENTOR. RA L PH 5 C ARPA BY g A T TORNE Y5.

United States Patent 3,249,272 METHOD AND APPARATUS FOR STRIPPING WASTE FROM A DIE CUT SHEET Ralph Scarpa, Hicksville, N.Y., assignor to Arkay Packaging Corporation, New York, N.Y., a corporation of New York Filed Aug. 13, 1964, Ser. No. 389,373

8 Claims. (Cl. 225-1) This invention relates generally to the removal of waste from sheet-like material, and in particular to an arrangement for stripping the waste from the blanks subsequent to the die cutting operation.

In the manufactureof boxes, display cartons, and the like, the conventional production stages involve: sheet printing; die cutting, to outline the box or carton blanks (including windows and folds); and waste removal or stripping. This invention is directed to the latter stage which will bediscussed exclusively.

While stripping machines are available to obviate 1aborious and expensive hand processes, which would otherwise be involved, the machines themselves often give rise to new problems and production costs. For example, conventional waste stripping arrangements employ upper and lower sets of pressure contacting pins which are aligned in predetermined positions above and below the sheet. The sheet is moved vertically, and at the same time the pins move into contact, grasping the waste be- I tween them and tearing it loose from the still rising sheet which comes to rest in a higher plane.

Separation of the pins prior to that of the sheet allows the waste to fall free. An alternative arrangement utilizes air pressure to urge the waste downwardly through the sheet. While the foregoing are rather simplified analyses, it is apparent that the sheet must be adequately supported either adjacent to the pin positions, or in the latter arrangement, around the forced air stream; and that without adjacent support, the sheet would merely flex when pressure was applied to the waste. As a consequence, conventional arrangements call for the sheet to be supported on a plywood base, apertured to permit the waste to pass through and at the same time support the remainder.

Although this arrangement is satisfactory when only a single uniform production run is envisaged, most manufacturers have several different jobs awaiting stripping. Each job then requires its own plywood base, and hence entails several hours services of a skilled die maker. In addition, since it is not known in advance whether a particular job would be reordered, each plywood base must be stored in anticipation of a reorder, the die-cutting making the sheet too valuable to be discarded.

Accordingly, it is the object of this invention to reduce the cost and time involved in stripping waste from die-cut sheets.

It is a further object of the invention to achieve the first object in a simple manner which obviates the necessity for plywood bases.

The above mentioned and other features and objects of this invention and the manner of attaining them will become more apparent and the invention itself will best be understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings wherein:

' FIG. 1 is an exploded perspective of a wire stripping mechanism employing the concept of the invention;

FIGS. 2 and 2a illustrate the upper stripping pins and their supporting member;

FIG. 3 illustrates the sheet supporting runners and the runner-supporting frame;

FIGS. 3a and 3b are perspective illustrations of two preferred cross-sections for the runners; and

FIGS. 4 and 4a show the lower stripping pins and their supporting structure. 1

Before entering upon a detailed analysis of the invention, it bears mentioning that the accompanying figures have been simplified to emphasize the inventive concept. Accordingly, mechanical details, such as .vertical drive, housings, feed brushes and rollers, etc., which are well known to those versed in the art, have been omitted for clarity.

Turning now to the figures, and in particular to FIG. 1, there is shown a waste stripping assembly according to the invention. For purposes of illustration, the assembly is shown as an intermediate stage between a die cutter mechanism 11 and a stacker 12, in which are disposed the next card to be stripped and the card previously stripped, respectively.

The stripper assembly consists of three major components cooperating to remove the waste by displacing the waste and remainder into separate planes. Each of these components is shown in detail in FIGURES 2 through 4, reference to which will be deemed inferred when the respective component (whose initial reference numeral corresponds to the figure number) is described in conjunction with FIG. 1.

The sheet 19 containing the blanks and waste portions is removed from the die cutter 11 by the laterally traversing feeding and positioning bar 13, the grasping fingers 14, 15 and 16 of which secure the bar to the sheet. Upon reaching the position shown, the sheet is disposed between the chase 21 and the lower stripping pin supporting frame 40.

The chase 21 is rigidly mounted in the stripper housing and is hinged (not shown) for access to its underside when inoperative. The entire chase, save for its periphery is honeycombed to permit an infinite positioning of the upper stripping pin assemblies 22, 22' and 22" (for purposes of illustration only three pin assemblies are depicted). Each pin assembly, shown in detail in FIG. 2a, comprises a conventional nut, bolt and washer arr-angement for securing the aflixed pin 23 in the position desired. The eccentric pin mounting on the plate 24 allows an area coverage which would otherwise be precluded by the thickness of the honeycomb.

The opposing lower stripping pin assemblies 42, 42 and 42" are mounted on a supporting frame 40 in alignment with the lowerpins 22, 22' and 22", respectively. This frame is displaceable, via the depending members 47 and 48 and a vertical drive (not shown), in the-direction of the arrow 43. Infinite lower pin positioning is achieved by the C-clamp 44 and a similar eccentric pin-plate mounting to that depicted for the upper pin assemblies. Unlike the upper pin, the lower pin comprises a collapsible spring loaded assembly consisting of a piston 45 and cylin der 46.

Supporting the sheet between the opposing sets of pins is a platform 30, vertically displaceable in the direction of the arrow 31 by independent drive means (not shown) acting upon uprights 32 and 33. The platform 30 comprises a pair of longitudinal rails 34 and 35 upon which the laterally disposed runners 36 (a representative one is designated) are adjustably mounted.

As shown more clearly in the detail cross-sections of FIGS. 3a and 3b, which depict L-shaped and T-shaped embodiments, respectively, each runner is preferably composed of a metal beam having a T or L-shaped crosssection (361 or 362). for rigidity. Atop the beam is a permanently mounted wood slide 363 which is beveled at either the receiving or both ends to ease the passage of the sheet onto the platform. Affixed to the underside of the beam at both ends are C-shaped screw clamps 364 and 365 which sit astride the rails 34 and 35 and are fastened in position by means of the knurled finger screws 364' and 365'.

v of an imaginary line joining a pair of opposing pins.

From the foregoing, it will be apparent to one skilled in the art that by additionally allowing the C-shaped screw clamps to be rotatably mounted on the runners, with at least one clamp slidable along the beam underside, the runners may be mounted other than perpendicular to the rails. The expense involved in such an arrangement may prove justified in its application to more complicated jobs.

With respect to the initial machine setup, after the upper and lower stripping pins have been placed in aligned opposing positions to grasp the waste, the runners are positioned so that a pair of runners sits on either side The separation between runners depends upon the size of the waste to be removed and can never be so close as to preclude the passage of pins between them. Since for purposes of illustration, a single rectilinear array of pins has been chosen only two runners-are required. The remaining runners may be removed with a sufficient number allowed to remain to support the rest of the sheet.

The stripping operation is as follows: When the sheet has attained the position shown, the platform 30 and lower pin supporting frame 40 rise. At about the time the sheet encounters the upper stripping pins, the lower frame 40 has carried its associated stripping pins into contact with the waste portions which are securely grasped (by virtue of the spring pressure described) between the upper and lower stripping pins. The platform 30 now rises above the point of pin contact, tearing the waste loose. Both the frame 40 and the platform 30 now retrograde, with the former being set in motion first. As a consequence, the waste is released before the platform reaches an equivalent level and since it is below the remainder of the sheet, it falls free into the wastebin 18. The stripped sheet is now fed by the feeder bar 13 to the stacker 12. To ensure that the waste does not adhere to the upper stripping pins, their ends are tapered (as shown in FIG. 2a) to a smaller abutting surface than that of the lower stripping pins.

While the foregoing description has been directed to cardboard stripping, it will be apparent that it applies with like import to most die cut materials, such as leather, corrugated, etc. Further, it will be appreciated that it would be a simple matter to switch the desired result and allow the waste to remain and the product to fall through. In this case the waste bin would of course serve as a product bin.

While I have described above the principles of my invention in connection with specificapparatus, it is to be clearly understood that this description is made only by way of example and not as a limitation to the scope of my-invention as set forth in the objects thereof and in the accompanying claims.

I claim:

1. The method of stripping waste from a die cut sheet comprising the steps of:

positioning the sheet on a plurality of spaced horizontally elongated runners disposed on either side of the waste to be removed;

displacing the runners and hence the sheet upwards perpendicular to the plane of the sheet;

displacing the waste relatively downwards through the plane of the runners;

and allowing said waste to fall free to a waste storage bin below.

2. In a stripper having means to separate waste from die cut sheets, intermittently and laterally fed to the stripper, by urging the waste and the remaining sheet portion into separate horizontal planes, the improvement therein for supporting the sheet during separation comprising: a frame; a plurality of horizontally elongated runners, and means for slidably positioning said runners on said frame adjacent either side of the waste to be removed.

3. The improvement claimed in claim 2 wherein the frame comprises a pair of parallel longitudinal members, the runners being laterally placed on said members for adjustable longitudinal displacement.

4. The improvement claimed in claim 3 wherein at least the receiving end of each runner is beveled for accepting the laterally fed sheet without hindrance.

5. The improvement claimed in claim 4 wherein each runner is of T-shaped cross section, the horizontal bar of the T being uppermost and including the bevel on its upper face, said horizontal bar further being greater in thickness than the vertical bar.

6. The improvement claimed in claim 4 wherein each runner is of L-shaped cross-section, the horizontal bar of the L being uppermost and including the bevel on its upper face, said horizontal bar further being greater in thickness than the vertical bar.

7. In a stripper, for separating waste from die cut sheets intermittently and laterally fed to said stripper, of the type having a set of upper and a set of lower pressure contacting aligned stripping pins adjustably positioned with respect to said sheet for gripping the waste, and means for independently displacing said sheet and at least one set of said waste gripping pins perpendicularly to the plane of said sheet so that the waste and remaining sheet portion are separated into two planes, the improvement therein for supporting the sheet during its perpendicular displacement comprising: a frame; a plurality of horizontally elongated runners, and means for slidably positioning said runners on said frame adjacent either side of a pair of aligned stripping pins.

8. The improvement claimed in claim 7, wherein the frame comprises a pair of parallel longitudinal members, the runners being laterally placed on said members for adjustable longitudinal displacement.

References Cited by the Examiner UNITED STATES PATENTS 1,424,190 8/1922 Cole et a1. 269296 X 1,467,637 9/1923 Hatch 83-623 X 1,750,199 3/1930 Spahn 269296 1,981,974 11/1934 Vernimb 93- 36 X 2,413,999 1/1947 Shaner 83-103 2,557,504 6/1951 Holmes 93-36 2,759,402 8/ 1956 Jedlick .9336 X 2,779,257 1/1957 Jedlick 93-36 2,885,165 5/1959 Smolen 269296 X 3,055,275 9/1962 Schroter 9336 3,060,776 10/1962 Bobst et al 9336 WILLIAM W. DYER, JR., Primary Examiner.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1424190 *Oct 9, 1920Aug 1, 1922John W ColeAutomobile repair stand
US1467637 *May 2, 1922Sep 11, 1923Hatch Raymond MPunch
US1750199 *Apr 10, 1928Mar 11, 1930Spahn Hilbert CMotor stand
US1981974 *Jul 20, 1931Nov 27, 1934August VernimbAutomatic stripping machine for folding box work
US2413999 *Jun 22, 1944Jan 7, 1947Box Blank CorpStripping machine
US2557504 *Apr 17, 1950Jun 19, 1951Fleming Specialty CompanyCutout clearer for perforated containers
US2759402 *Oct 15, 1953Aug 21, 1956Howard G HemphillMachine for removing waste slugs from carton blanks
US2779257 *Jun 10, 1955Jan 29, 1957Roland T JedlickMachine for removing waste slugs from carton blanks
US2885165 *Nov 12, 1954May 5, 1959Clayton Manufacturing CoEngine support
US3055275 *Feb 16, 1959Sep 25, 1962Schroter FriedrichMethod and device for striking out the waste or use from punched sheet workpieces
US3060776 *May 21, 1956Oct 30, 1962Bobst & Son S A JPresses for cutting sheet material
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3303979 *Sep 7, 1965Feb 14, 1967Lang PierreMethod and device for removing pieces from sheet material
US3568903 *May 16, 1969Mar 9, 1971Bobst Fils Sa JStripping member assembly
US3786731 *Jul 10, 1972Jan 22, 1974Bobst Fils Sa JPress for cutting sheet material
US4108343 *Aug 4, 1976Aug 22, 1978Franz VossenMethod of and apparatus for breaking away of prepunched pieces of material from curved or arched sheets of material
US4175686 *May 24, 1978Nov 27, 1979J. Bobst & Fils, S.A.Device for stripping blanks from a die cut sheet of blanks
US4248370 *Apr 11, 1979Feb 3, 1981Wupa Maschinenfabrik GmbhEquipment for breaking the scrap or useful parts away from stamped workpieces from flat material
US4371369 *Apr 25, 1980Feb 1, 1983Franklin Corrugated Design, Inc.Automatic register system for die cutting operations
US4452595 *Jan 18, 1982Jun 5, 1984Federal Paper Board Company, Inc.Stripper apparatus for paperboard blanks
US4510667 *Feb 3, 1982Apr 16, 1985Jacques NassoyProcess for pre-setting mounting holes for cutting and ejection tools of an automatic platen press
US4603488 *Feb 15, 1985Aug 5, 1986Jacques NassoyProcess and appliances for the pre-setting of cutting and ejection tools in a cutting press for box blanks
US4892242 *Jan 13, 1988Jan 9, 1990Sekisui Kaseihin Kogyo Kabushiki KaishaMethod and device for separating trimming losses of products formed from sheet
US5049122 *May 25, 1990Sep 17, 1991Marguip, Inc.Apparatus for stripping scrap from die cut blanks
US5292047 *Apr 15, 1991Mar 8, 1994Bobst SaUniversal movable upper tool for a waste-stripping station situated within a sheet die-cutting machine used for producing packages
US5337639 *Jun 16, 1992Aug 16, 1994Die-X Tooling SystemsOutfeed lifter ramp for blanking boxes and other die-cut paper products
US5353978 *Apr 10, 1991Oct 11, 1994Bobst SaMovable upper tool for a blank separating machine
US6325263Sep 10, 1997Dec 4, 2001Jean-Bernard De DompierreMovable tool for separating blanks from a sheet of die-cut blanks
US6477930Aug 12, 1999Nov 12, 2002Peter E. SandfordJogger member, system and method for mounting jogger members and female and male blanking dies provided therewith
US6517298 *May 24, 1999Feb 11, 2003Gerber Scientific Products, Inc.Method for selectively relieving sharp edges in tools used in die cutting sheet-type work material
US6520900Oct 20, 2000Feb 18, 2003Peter E. SandfordMethods for erection of female blanking die and universal press frames for use in such methods
US6598284 *Oct 2, 2000Jul 29, 2003Bobst S.A.Method of preparing a system of converting tools and presetting table for working the method as well as an assembly of components for preparing an upper stripping die
US6691395 *May 8, 2002Feb 17, 2004Bobst SaMethod of preparing a system of converting tools and presetting table for working the method as well as an assembly of components for preparing an upper stripping die
US6718856 *May 15, 2001Apr 13, 2004Bobst S.A.Converting press
US6851243Oct 20, 2000Feb 8, 2005Peter E. SandfordElements to erect female and male blanking dies for a die cutting and/or blanking machine
EP0692348A1 *Jul 6, 1995Jan 17, 1996Bobst S.A.Movable upper tool for the separation of the blanks from a sheet processed in a press for the production of packaging material
Classifications
U.S. Classification225/1, 225/106, 225/97, 493/373, 493/342
International ClassificationB26D7/18
Cooperative ClassificationB26D7/1818, B26D2007/1872, B26D2007/1881
European ClassificationB26D7/18B