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Publication numberUS3079846 A
Publication typeGrant
Publication dateMar 5, 1963
Filing dateJun 30, 1961
Priority dateJun 30, 1961
Also published asDE1212400B
Publication numberUS 3079846 A, US 3079846A, US-A-3079846, US3079846 A, US3079846A
InventorsPaul V Ford, Ralph F Lash
Original AssigneeBox O Matic Machine Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method and apparatus for scoring and slotting carton blanks
US 3079846 A
Abstract  available in
Previous page
Next page
Claims  available in
Description  (OCR text may contain errors)



March 5, 1963 P. v. FORD ETAL 3,079,846




P. V. FORD ET AL METHOD AND APPARATUS FOR SCORING AND SLOTTING CARTON BLANKS March 5, 1963 6 Sheets-Sheet 4 Filed June 30, 1961 4 Q m H m "ra. u x Y T u I! Ill-Ill l- \fl |-|\|||||||||.J I.

an s E o n 1 w Gt m 9? 5 11L: :1 l1 1|... ||||\||1||u| ||||||1| ||1|\n h||||\ AW. z2222;; mEmw72 2252gag?a: lll.l l|l II I lllll III.. \III lllll VH7 rlllllllww III (IL i n t u an an S F n \w F llllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll \IL ATTORNEYS.

March 5, 1963 P. v. FGRD ETAL 3,079,846


March 5, 1963 P. V. FORD ET AL METHOD AND APPARATUS FOR SCORING AND SLOTTING CARTON BLANKS Filed June 30, 1961 6 Sheets-$heet 6 AT TOR N EYS 3,679,846 P'IEETHUD AND APL AEZATUS Fill-R SQGRHJG AND SLGTHNG QARTQN BLANKS Paul 3. Ford, -ienshaw, and Ralph F. Lash, Ambridge,

232.; Lash assignor to Randi-Marie Machine fine,

a corporation Pennsylvania Filed June 39, B51, Ser. No. 121,2il9 13 ((3. 93-533} The present invention relates generally to method and apparatus for scoring and slotting blanks for forming cartons and other packaging materials. More specifically, the present invention relates to a method of and readily adjustable apparatus for manually slotting and scoring blanks and related packaging materials employed in forming containers known generally in the art as fiberboard boxes.

Fiberboard is a generic term applied to the material from which the containers commonly called paper boxes are formed. These containers or paper boxes have gradually assumed a dominating position, supplanting wooden boxes for packaging a great variety of materials.

The construction of the container and the disposition of the materials enclosed thereby is both an art and a science, giving rise to a new profession known as Fackage and lack Engineering. To obtain the maximum advantages from the use of fiberboard containers, they should be designed and constructed to suit the specific load to be placed therein and the materials forming such specific load must be packed therein to occupy a minimum of space and movement relative to the walls of the container. After the shape or" the pack or load is determined, the container is constructed to the minimum size to receive same and, where necessar', interior packing pieces ar designed and constructed to obtain the minimum relative movement between pack and container during handling and shipping to the ultimate consumer. These containers are also employed to store the pack in warehouses for varying periods under varying atmospheric conditions.

it, therefore, ecomes obvious that the packaging problems encountered in the packaging and shipping departments or" various types of industry are many and v ied. Where the size of the pack is fairly uniform or falls into an established group of sizes, the slotted and scored blanks to form the containers may be purchased in large volume and produced on automatic machinery to obtain a surprisingly low cost per blank.

When, however, the number of any specific size of container blanks is small, ranging from one to one thousand, the cost per container blank increases many times. Under present day prices and using conventional machinery, a slotted and scored container blank obtainable for nine cents in minimum lots of 1,069 will cost 23 to 30 cents per blank in lots of 16%. This results from the labor costs in setting-up or adj ting existing equipment to handle the slotting and scoring of any given size of blank.

letting and scoring on iprnent to produce large volumes of any given size and shape of blank must be heavily constructed, require a minimum tolerance of 1% for every dimension, and in many cases require larger tolerances.

his variation in inside dimension of containers cannot always be tolerated when shipping fragile articles and additional packaging pieces or tillers may be required, with the need thereof varying from container-to-container and pack-to-pack. Such conditions naturally reduce output per employee and increase the cost of packaging.

One object of the invention is to provide a method for progressively slotting and scoring container blanks to varying sizes in any desired dimensional increments.

Another object of the present invention is to provide 'pparatus for scoring md cutting small numbers of con- Patented Mar. 5, 5.983

tainer blanks of any one size at a cost approximately that obtainable with only large lots of 1,000 or more of the same size.

Another object of the present invention is to provide apparatus for the above purposes which is manually controlled and may be quickly and accurately adjusted to produce slotted and scored blanks of practically every size and shape and producible on the large automatic machines.

Another object of the invention is to provide such apparatus which may be accurately and quickly adjusted to produce slotted and scored blanks which dilrer in size from one another in very small increments.

Another object of the invention is to provide apparatus of the character described which may economically successively slot and score the blank by movement of a single cutter blade.

Another object of the inventiton is to provide apparatus of the character described which is capable of ready adjustment to economically cut and score blanks of varying thickness and shapes, as well as liners and other interior packing pieces in small lots.

These and other obiects will be made apparent from the following description and the drawing forming a part thereof wherein:

PEG. 1 shows a perspective view of the apparatus of the invention and detachable auxiliary tables which may be added thereto to facilitate handling of over-size blanks by a single operator;

PEG. 2 shows a plan view of the apparatus indicating the relative positions of the slotting and scoring blade, adjustment and gauging parts and a manual drive for moving the blank being worked on relative to said blade;

FIG. 3 shows a side elevation of the apparatus of PEG. 2;

FIG. 4 is a plan view, similar to F1". 2, with the blank supporting base plate removed to show construction of the portions of the apparatus employed in adjusting and dri ing the blank past the cutter blade;

FIG. 5 shows a cross-section taken on lines VV of 2 showing the cutting and scoring blade in full lines when in normal raised position and by dotted lines in slotting and scoring position;

FIGS. 5A and 5B show sections through the blade of FIG. 5 at the slotting and creasing dies;

P16. 6 shows an enlarged view illustrating development of the shape of the cutting edge of the blade providing a shearing cut for slotting the blank;

PEG. 7 shows one form of blank as made on the machine to provide a commercial regular slotted container; and

PEG. 8 shows a special form of blank produced on the machine to provide a container referred to as a one-piece folder.

The basic apparatus disclosed in the drawings comprises a suitable supporting stand provided with front and rear base members 2 and 3 having spaced uprights e, 5 and 6, 7 extending upwardly therefrom. Disposed above said uprights is a bed plate 8 which is connected with the uprights by transverse front and rear angular members 9 and it Overlying bed plate is face plate 11 roviding a fiat smooth working face upon which is supported the container blank being slotted and scored by the apparatus.

As best illustrated in FIGS. 2 and 3 of the drawing, the face plate 11 and base plate 8, intermediate their side edges are provided with a slotted opening 12 extending inwardly from the back edge thereof, to receive the cutting and scoring blade 14. Overlying plate 11 and extending inwardly from the back edge 13 thereof is a housing member indicated generally at 15 provided with depending side walls 16 and a top Wall 17. Said side aovc aae walls-'16 being disposed at opposite sides of face plate opening 12 and having adjacent the rear edge of the face plate, side flanges 18 secured to the face plate 11 and the underlying base plateS. Said'side walls 16 inwardly of flanges '18 being spaced above the. face plate opening as at 19. Extending inwardly of the face plate 11 from the housing is a U-shaped guard member 20 disposed in vertically spaced relation to the face plate and aligned withthe openinglZ. Disposed within housing member 15 is the combined slotting and scoring blade indicated generally at 14 and pivotally mounted intermediate its ends at 21 upon a pivot 22 disposed in said housing side walls16; Said blade 14 having a portion 23 extending rearwardly of pivot 22 and provided with opening 24.. A treadle member is pivotally mounted intermediate its ends on said stand at 26. Said treadle having a pivotal connection with opening 24' of thecutter blade, through an adjustable rod 27. The opposite end of treadle- 25' extends-through said-upn'ghtmembers 4 and 5 and has a treadle plate 28 thereon. A suitably mounted tensionspring 29 has one end connected to treadle 25 and" the opposite end connected with the standabovethe treadle plate, as at 30.

Referring now toFIGS. 2 and 4 ofthe'drawings, apair of blank gauging members indicated generallyat 31 and-' 32 arernounted upon the face plate 11; Gauge 31 comprises a rectangular member 33 slidably mounted in a recess 34 in face plate 11 so as to be flush with the top 7 7 face thereof. Adjacent member 33 and recessed in the faceplate 11 is a scale bar 35. The member 33 is movable rearwardly of the edge 13 of face plate 11 and has mounted intermediate its ends an abutment face 36 extending above the face plate and a rearwardly extending portion. 37 secured to member 33; Beneath member 33 and aligned" longitudinally thereof are a" pair of bearings 38'secured'to the bottom face of base plate 8. A similarly" mounted bearing 39 is disposed adjacent'the front of the base. plate and a shaft. 40 is mountedin said bearings 38, 39' andextends through the fronttable member 9to receive a hand wheel 41. The base plate 8 beneath member 33 is slottedbetween the bearings 38. and a member 42 mounted on shaft 40'has a portion extendingupwardly through said slot into fixed engagement'with' member 33.

The shaft 40, intermediate the bearings 38', is provided with a continuous thread 43 engaging with an internal thread within member 42, whereby alternate rotation of shaft 40' in opposite directions moves member 42, in opposite directions along. said shaft 40;

Gauge member 32 comprises a rectangular member 44, similar to member 34, recessed into the face plate 11', forsliding movement relative thereto, and has an.elongated'abutment face 45 disposed transversely thereof and secured to member 44' by the rearward extension 46. Abutment face. 45 is continuously transversely aligned with abutment face 36 and has a forwardly extending portion 47 secured thereto in vertically spaced relation to the face plate 11. The vertical face of member 47 has scale markingsthereon, for. a purpose hereinafter set forth. Disposed beneath base plate 8 in alignment with member 4'4isa second'shaft 49a suspended in bearings 38a and having a member 42a mounted thereon and connected with gauge member 42' for movement therealong as for member 33; Shafts 40iand 40a have mounted thereon suitable sprocket members 48 over which is trained a sprocket chain 49 wherebyrotation of hand wheel 41- simultaneously drives bothshafts in the, same direction of.r o tation.

Intermediate shafts 40, 40a and suspended within bearings 50 secured to theunder face of base plate 8 is a shaft 51 having a hand wheel 52 at one. end thereof: Intermediate shafts' 40 and 51 is disposed a shaft 53 rotatablymountedin spaced bearings. 54. Secured to lat sprocket 58 is mounted on shaft 51 in alignment with sprocket 57 and a suitable chain 59 is trained thereover to drive shaft 53 from shaft 51. Base plate 8 and face plate 11 have slots 60, 61 therein through which a portion of the periphery of wheels 55 and 56 protrude above the plane of the top face of plate 1 1. Aligned withwheels 55, 56 are wheels 62, 63-. Wheel 62 is adjustably.

mounted upon a. threaded shaft 64 pivotally mounted in bracket 65 secured to extension 16a of housing 15. Wheel .62 is pivotally mounted on extension. 1641 of housing 15 by means of bracket 66 having a pivot 67 receiving wheel 63. The periphery of wheels 55 and 56, as shown in FIG. 2, have a rectangular groove therein. The periphcry of wheels 62, 63 are of V-shapeand-aligned with and; engaging within the indentation of the matching wheels 55, 56 for a purpose hereinafter set forth. It will be noted'that scoring wheel 63 is aligned with point P of cutting'bladeC, hereinafter discussed.

Referringnowto FIGS. 2, 5' and 6 of the; drawing disclosing the construction and operation of the combined slot in the blank, the blade scoring portion. S is disposed substantially parallel toand immediately adjacent the unslotted surface of the blank so that continued movement: of the blade 14 about its pivot 22 presses the entire length:

of blade surface S across the'face ofv the blank beneath it- As best illustrated in FIG. 6, the cutting surfaceC moves in an are about pivot 22 and towards the pivotas. it penetrates the blank B and passes between the spaced surfaces of the cutting or slotting dies 68. Therefore, the. surface C must be adeveloped surface whereby each inecrement of the length of'C engaging. and passingthrough. the blank should be at an angle thereto to'insure a cutting. and not. a crushing force. being continuously applied 7 equal increments '70. The length of cutting edge C is then.

to the blank. One method of developing surface C is illustrated in FIG. 6. Here the arc of movement 69 of point P, in engaging the blank and: until the inner edge:

of C passes .through the blank, is divided into substantiallydivided into angularly disposedsegments71 through 75,. whereby each segment. in passing through the blank B (indicated by dotted lines) imparts a: slicing action and not a crushing action thereto, in cut-ting through th thickness ofthe blank. I

As shown in FIG. 5, cutting dies 68 are secured to base: plate 8 with their upper surface flush with the plane of face-plate 11, in the path of movement of thecuttingedge C of blade 14, and creasing dies 76 are similarly dis-.

, posed beneath the area of engagement ofthe creasing edge.

shaft 53,, intermediate the bearings 54 are. spaced scor- 77 of the blade 14. FIG. 5A discloses the contour of the cutting edge C of blade 14, wherein the sides 78 of' the blade forma square corner with the bottomedge 79' andedge 79 has an inverted modified V-shaped notch 80 therein. FIG. 5B discloses'the contour of the creasing. edge 77, wherein the bottom of edge 77 is decreased in width and rounded at 81; In each view-5A and 5B, the cutting dies 68 are shown associated with cutting edge 0 and the creasing dies 76 are shown associated with the creasing edge 77. Itv will be understood that side walls 78 of cuttingedge. C move, through dies 68 with a slight clearance. The creasing edge 77 does notmove doWnwardly past the dies 76, since the blank at this'point, is to be scored and not severed. The depth of crease, or

in rod 27 connected to the member 14; I

The apparatus of the invention, as previously stated,

can be used to slot and crease a blank for folding into practically any and every form of container presently used, in addition to forming the filling pieces and other shapes to be inserted inside the container. For purposes of illustrating operation and use of the apparatus, we have shown two forms of blanks. Fig. 7 showing a blank foldable into a commercial rectangular slotted container, and FIG. 8 showing blank for a commercial container known as a one-piece folder.

Referring now to FIG$. 2 and 7 of the drawings and assuming the length of the slots extending inwardly from the edge 33 of the blank is two inches, the hand wheel 41 is rotated to bring the inner end 33:: of member 33 in alignment with numeral 2 on the scale 35 adjacent the hand wheel 41. Since the longitudinal plane of the face of abutment 35 is in ali nrnent with the initial engagement of point P, of knife 14 with the blank, when the end 33a of member 33 is aligned with zero on the scale, the face of abutment 36 will be two inches in advance of point P and also wheel did when the end of member 33 is aligned with numeral 2 on the scale. The blank is now advanced with the edge 33 abutting 36 and moved towards the blade to bring the leading edge 86 of the blank beneath-wheel as. Rotation of hand wheel 52 to the left will cause similar rotation of scoring wheels 56 and 63 to draw the edge 85 towards and through housing slot 19 and beneath raised knife 14 and across the face of abutment 45. The rotation of hand wheel 52 is continued until blank edge 86 is aligned with numeral 3 of scale 45, the desired location of slot 87 relative to blank edge 85. The foot treadle 28 is now depressed causing the knife to lower and slot 3'7 is formed. At the conclusion of the formation of slot 37, further rotation of knife 14 brings the scoring portion 77 thereof into engagement with the blank, inwardly of slot 37 and depress the blank into the space between scoring diesl' to form score line 83. if the length of the knife scoring portion 77 is equal to or greater than the length of blank edge 85, the score line may extend fully across the blank. In any event the length of scoring portion is equal to or greater than one-half the blank being worked upon. Hand wheel 52. is again rotated a sufficient distance, measured on scale 45, and the operator again presses. down on treadle plate 28 to form slot 89 and score line gt Thereafter the treadle plate 28 is released and spring 3t? lifts the knife 1 free of the blank and the blank is again advanced the desired distance and the operation repeated to form slot $1 and score line $2. The blank is then rotated 180 to bring blank edge 84 into engages ment with abutment 34- and scoring wheels 55, 63 and he seouence or" operations is repeated to form slots 93, 94 and and complete the scores 38, 9t) 92. As previously described, the scoring wheels 55 and 63 in advancing the blank also forms the longitudinal scores 83a 34:; at the base of the slots extending inwardly from each blank edge 83, The blank is now removed from the face plate 11 and assembled in the usual manner.

Referring now to H68. 2 and 8 cf the dr wing, the blank FIGURE 8 is of the type form'ng a one-piece folder container. Here it will be noted that all four corners of the blank are removed by intersecting slots 3453 and IflT, lit and 153, 168 and 1M and l f and 137. At the time of forming the slots to remove the blank corners, the score lines 970, 97c, E2 and M4 may be formed as previously described. The additional score lines 7, 7b, left and too may be formed by re-adjusting the abutments 36 and 35 to the desired spacing and merely running the blank through the scoring wheels 56 and 63 without operation of the knife 14.

Many special forms of containers and other pieces used with containers require additional score lines parallel with and inwardly of the inner edges of the slots made by said knife. Such score lines can be effected by blade 63. However, where quantities are large, the bracket 65 with'its adjusting shaft 64 and wheel may be set up 5 to form these scores simultaneously with scores made by wheel 63.

Utilizing the gauges, scoring wheels and blade 15 in the manner hereinbefore described, it will be apparent that blanks providing any form of container or internal packing pieces may be prepared. When different thick nesses of paper board or other material are employed in the blanks, the rod 27 may be adjusted to provide the necessary depth of score in accordance with change inmaterial.

Although the slotting cuts of the two specific forms of blanks illustrated were disposed at right angles to the margins of rectangular blanks, it will be obvious to those skilled in the art that slots at other angles than right angles may be readily formed by changing the position of the blank so that the margin is at the desired angle to the direction of movement of the cutting edge of the blade.

It will be obvious from the foregoing that any desired length and width of blank received by face plate 11 can be slotted and scored to provide most any desired shape of'carton. As shown at FIG. 2 of the drawing, any desired length of extension plates may be disposed on opposite sides of the basic mechanism to provide for handling extra length of blanks. Likewise the length from front to back of the base plate 8 and face plate 11, as well as the length of the cutting and scoring blade may be increased, as desired, to handle greater width of the carton.


The extreme case and limited time necessary to adjust the mechanism to accommodate relatively large or small increases in the size of blanks worked on, the length and spacing of the slots or score lines makes the machine extremely flexible. Another outstanding advantage resulting from the use of the machine, is that the containers may be made to the exact size required. By this means many expensive interior packing pieces may be either eliminated entirely or greatly reduced in number. Additionally such interior packing pieces such as, plain pad, various rat trap pads, clearance pads, folded pads, collars, etc., may be readily formed in this machine, where desired.

Although but two forms of scored and slotted box blanks have been described, We have also made many other types of blanks for containers, including such well known containers as full over lap (FOL), regular slotted carton (RSC), five panel folders (PPF), double slide and triple slide boxes, full telescopic containers (FTC), etc.

Apart from the specific form of apparatus herein disclosed we have developed and disclosed a method of providing slotted and scored container blanks which is entirely different from that heretofore used in the industry. The step of employing a pivotally mounted slotting knife which piercesthe blank inwardly from a marginal edge thereof and slicing through the thickness of the blank in a direction outwardly towards said marginal edge pro: vides clean sheared edges defining the slot so formed. The length of the slot to be so formed may be accurately and quickly established by one simple adjustment of the abutments disposed on opposite sides of the knife and movable relative to the point of engagement between the piercing edge of the blade and the blank. Said abutments also serve the dual purposes of determining the length of Joe slot and the spacing between the slots, longitudinally of the blank, by reason of the markings on the abutments measuring the degree of advancement of the leading edge of the blank past the knife. By reason of the slots being sequentially formed concurrent with advancement of the blank past the knife, any desired increments of spacing between slots is obtainable and accurately determined.

The employment of a scoring surface integral with and as an extension of the knife inwardly of the inner edge of the previously formed slots permits two separate operations to be sequentially performed by a single movement of the knife over a range of blank widths from less than the length of the knife scoring surface, up to somewhat sge'zasss greater than twice thelength of the scoring surface. Should the score formed on the blank extend entirely across the remaining Width of the blank and into the area to be removed after the blank is rotated 180 for slotting inwardly from the margin thereof, no harm results to the blank. The Width of slot to be formed is never lessthan the width ofthe scoring line.

Although the blank may be advanced by hand' past the blade, in forming slots, the use of top and bottomv scoring wheels to both advance the blank past the knife and simultaneously form the score line in the direction of movement of the blank materially reduces the time required to prepare the blank for folding into the desired carton. Furthermore, setting the abutment gauges to any desired position permits forming these latter score lines independently of movement of the knife, when slotting is not required. The use of multiple-pairs of such scoring Wheels permits formation of more than one score line at a time, without operation: of the knife; In this manner many desired forms of interiorpacking pieces may be formed; 7 a

The pivotal mounting of the knife in the manner de:- scribed. and the adjustable length of the operating rod thereof provide full control of the depth of the score applied by the scoring extension of the knife regardless of changein-thickness of the blank.

Having described the principles of operation of the machine, along with certain specific details of constructiontherein, it will be understoodthat many variations in such construction details will suggest themselvesto those skilledin the art, and within'the scope of the invention as defined by the appended claims.

We claim:

1'. Apparatus for slottingand scoring a blank of fiberboard for folding. into a shipping container, comprising awork surface over which said blank is movable, slotting means pivotally mounted adjacent the rear and above said work surface for. movement intoengagement with the body of the blank inwardly of the adjacent margin and severing aslot thereinin a direction. towards and through the adjacent margin of the blank, abutment means adjustably mounted in said work surface and engaged by the said adjacent margin ofthe blank in moving beneath said slotting means, scoring means mounted on said slotting means for engagement with. the body of the blank inwardly'of' the slot upon completion of the severing of said slot, operating means for said slottingmeans normally maintaining the latter above the work' surface and selectively actuating the slotting. audscoring means into engagement with theblank, and means for moving said blank relative tosaidabutrnent and slottingmeans when thelatter is in elevated position. v

2; Apparatus as defined in claim. 1 wherein the said slotting means comprises an elongatedmember pivotally mounted intermediate its ends above said work surface, one end of said member extending rearwardly beyond said pivotal mounting and towards the rear edge of the work surface, the other end of said member extending forwardly from said pivotal'mounting and comprising a blank severing edge. having an outer portion depending below the plane of the pivotal axis of the member and upward and inwardly extending portion connecting said depending portion with said member adjacent said pivotal axis thereof, said edge portions at their points, of intersection forming a blank piercing point.

3. Apparatus as defined'in claim 2wherein said scoring means comprises a linear extension of said slotting means member and forwardly of said member pivotal mounting, said extension being'disposed substantially parallel to the upper plane of the blankbeing workedon. when initially engaged therewith. V

4. Apparatusas defined in claim 3, whereinthe said meansfor' moving said blank relative to said abutment and slotting means,'includes means engaging the blank upon the upper and lower surfaces thereof for scoring the blank in a direction reverse to the direction of movement.


5. Apparatus for processing card and fiberboard blanks:

for folding into a shipping container, comprising a work surface over which the blank is moved during processing,

ment towards and away from the said surface,- blank;

gauging abutments adjustably mounted within the work surface and extending thereabove at opposite sides of the vertical plane ofmovernent of the slotting means, means for intermittently moving said blank longitudinally of said abutments and transversely of the path of movement of said slotting means, means associated with said slotting means and forming an extension thereof for scoring said blanks inwardly of the path of movement of said slottingrneans and transversely of the path of movement of the blank relative to-said gauging'abutments, and means for selectively actuating said cutting'meaus about its pivotal mounting.

6. Apparatus as defined incl-aim 5; wherein said means for moving the blank longitudinally of the said abutments includes scoring means imparting a score line upon the blank concurrent with the movement of the blanks.

7. Apparatus as defined in claim 6, wherein said adjustably gauging rabutments'include measuring scales for determining the length and spacing of said slots formed in the blank by the cutting means.

8. Apparatus for'processing blanks of fiberboard for folding into containers, comprising a work surface over' which the blank is movedduringprocessing, blank gauging abutments mounted within the work surface. for ad justment transversely of said surface and disposed in a direction longitudinally thereof, blank scoring means: mounted adjacent the rear longitudinal. edge. of the work surface for reciprocal movement towards and away from said surface in a vertical plane of movement transversely of the said surface, means for selectively actuating said scoring means and means for manually controlling movement ofthe blank transversely of the plane of movement of the scoring means.

9. Apparatus as defined in claim- 8, wherein said scoring means has associated therewith a slotting means disposed in end to end relation whereby asingle reciprocal movement. of the scoring means effects a slotted opening through one longitudinaledge of the blank as an extensionof the scoring of the blank.

10. Apparatus as defined in claim 9', wherein said means. for manually controlling movement of the blank trans versely of the plane of movement of the scoring means, includes means actuated by said. control means to effect a scoring of the blankv in a direction. longitudinally thereof.

' the steps of, providing a blank sheet offiberboard'o-f the.

11-. The method of slotting and scoring a blank for folding into a fiberboard shipping container, comprising of the blank in a direction from the body of the blank I outwardly towards and through said margin then scoring the blank from the inner end of the slot towards the center of the blank, moving theblank transversely of the cutting bar and against an adjustable abutment. gauging the length of the slot cut in theadjacent blank margin and the spacing between said slots in the adjacent blank margin, scoring the blank in the direction of its moving length during movement past the slotting and scoring bar, then rotating the blank and repeating the slotting of the marginal edge of the blank in alignment with the previous slots while longitudinally scoring the blank during movement-past the cutting bar. a

12. Apparatus for slotting audscoring a blank of fiberboard for folding into a shipping container, comprising a member having a supporting surface over which the blank is moved, a slotting and scoring bar mounted upon said member for reciprocal movement towards and away from said supporting surface, an abutment disposed transversely to the path of movement of said slotting and scoring bar and adjustably mounted on said supporting surface for movement in a direction longitudinal of the length of said slotting and scoring bar, and blank scoring means mounted on said supporting surface in spaced relation to said abutment engaging a blank disposed upon said surface in engagement with said abutment blank and moving said blank past said slotting and scoring bar.

13. A method of scoring and slotting a blank for folding into a fiberboard container, comprising the steps of: (a) providing a piece of fiberboard of the size required; (b) supporting same on a work surface for selective movement relative thereto; (0) engaging a marginal edge of the blank with a linearly extending abutment; (d) passing the length of the blank in a sequence of measured steps along said abutment beneath a recip- 10 meeting member moving in a vertical plane transversely of the vertical plane of the abutment and into and out of engagement with said blank;

(2) progressively piercing the blank inwardly of said marginal edge, severing a slot through the blank in a direction towards and through said marginal edge and scoring the blank inwardly thereof from the slot so formed during each engagement of the reciprocat ing member with the blank;

(f) rotating the blank 180 upon the work surface;

(g) then again passing the blank in similar measured steps along said abutment and beneath said reciprocating member with the former leading edge of the blank now forming the trailing edge to slot both opposite marginal edges and connect the opposing slots by score lines.

Oberem Nov. 26, 1957 Polayes Aug. 22, 1961

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US2814344 *Mar 16, 1954Nov 26, 1957Colt S Mfg CoSlotting tool and associated parts for a box blank forming machine
US2996961 *Oct 30, 1959Aug 22, 1961Bar Plate Mfg CompanyApparatus for and method of making folding blanks
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3137217 *Feb 12, 1963Jun 16, 1964Charles I Elliott CorpMethod of making corrugated cartons and blanks therefor
US3137218 *Feb 12, 1963Jun 16, 1964Charles I Elliott CorpDevices for cutting and creasing corrugated carton blanks
US3308723 *Aug 6, 1964Mar 14, 1967Jr Charles J BerghApparatus for slitting and scoring carton blanks
US5152204 *Nov 8, 1991Oct 6, 1992Jose TrevizoClam shell die cutter
CN103737989A *Dec 21, 2013Apr 23, 2014广州向盟机械有限公司Manual marking press
EP0395816A2 *Nov 8, 1989Nov 7, 1990Sunclipse, Inc.Die cutters
WO2015173671A1 *Apr 9, 2015Nov 19, 2015System S.P.A.A weakening device and method for realizing a weakening line in packaging sheets
U.S. Classification493/354, 493/61, 493/370
International ClassificationH04B1/26, B31B1/22, B26D3/08
Cooperative ClassificationB31B2201/147, B26D3/08, H04B1/26, B31B2201/148, B31B1/22, B31B2201/252
European ClassificationB26D3/08, B31B1/22, H04B1/26