US3883130A

US3883130A - Method for forming tabulating card sets

Info

Publication number: US3883130A
Application number: US296995A
Authority: US
Inventors: Richard H Hardesty
Original assignee: Individual
Current assignee: Individual
Priority date: 1972-10-12
Filing date: 1972-10-12
Publication date: 1975-05-13
Anticipated expiration: 1992-05-13

Abstract

A method for producing tabulating card sets which comprises a bottom sheet of relatively inflexible paperboard and at least one overlying sheet of paper. The method includes the steps of printing an advancing web of paperboard and the necessary number of advancing webs of paper with a desired card indicia to thereby define a series of card outlines, with each card outline being oriented to lie transversely across the web such that the grain runs in the transverse or short direction of the card outline. The webs are then slit in both the longitudinal and transverse directions to separate the individual cards, the slits being maintained within a close tolerance of a few thousandths of an inch. The webs are collated at a point prior to the final transverse slitting operation such that the paper sheets overlie the paperboard with the printed card outlines of the various sheets being aligned with each other.

Description

United States Patent 11 1 Hardesty METHOD roR FORMING TABULATING CARD SETS [76] Inventor: Richard H. l-lardesty, 138 Stratford PL, Salisbury, N.C. 28144 [22] Filed: Oct. 12, 1972 [21] Appl. No.: 296,995

[52] U5. Cl. 270/18; 270/21; 270/52 [51] Int. Cl 1. B4lf13/64 [58] Field of Search 270/18, 19, 52, 53; 11/1;

[56] References Cited UNITED STATES PATENTS 3,237,934 3/1966 Rosenberg ..1 270/53 3,284,077 ll/l966 Matuschke 270/53 x 3,325,188 6/1967 Hiersteiner 282/] 1.5 A 3,730,512 5 1973 136116663 270/53 x Primary Examiner-Robert W. Michell AssistantExaminer-A. Heinz Attorney, Agent, or FirmParrott, Bell, Seltzer, Park & Gibson 1451 May 13, 1975 [57] ABSTRACT A method for producing tabulating card sets which comprises a bottom sheet of relatively inflexible paperboard and at least one overlying sheet of paper. The method includes the steps of printing an advancing web of paperboard and the necessary number of advancing webs of paper with a desired card indicia to thereby define a series of card outlines, with each card outline being oriented to lie transversely across the web such that the grain runs in the transverse or short direction of the card outline. The webs are then slit in both the longitudinal and transverse directions to separate the individual cards, the slits being maintained within a close tolerance of a few thousandths of an inch. The webs are collated at a point prior to the final transverse slitting operation such that the paper sheets overlie the paperboard with the printed card outlines of the various sheets being aligned with each other.

3 Claims, 10 Drawing Figures SUPPLY Rott JIL T tra M 1 MG Mum-Coma To 7.57 TAKE-UP TAB CARD :D DEQBED i 5coetNfi-r 0/1155 FROM Rope OR PAPER, SEQAAL SCORE.- LINE STOCK NUMBEBlNG NG'RAlN Dnaecnon $7UTTLNG'R) ACAEBON PAPER COLLATNG, i G

"1n ENC-11TH L ED ACROSS \r To STOCK \FTAB CARD COMPONENTS GEAlN Op loN L IN ROLL FOR/t4 DlBECTlON r l i Cu'rrme Aceoss GteAm z 1 32 0" To Foam FlNlSHED 2 TAB CARD 51ers 7 5" CUTTING-TO 17" a NLENGTH DIEECHON GLUE-D To STOCK ODT\0NAL.

CARBON PAPER SHEET 10F 3 5coeu\lca-jl Dean-mm OF GRPUN Pm :11 MG- Muun-Cowra 1F DESIRED NUNBEEJNG' E 'flENTEB W 3 5933 OF TAB CARD OBPAPEE,

STOCK SUPPLY Rom.

m S wammwwm umo All! CAT T m w mm F7 WOE ii LM O N EC E llll IIAM/ G BN 2 M Tie mM MCRO +l||| mam cum $HEET 30F 3 SLFLLPLY Rm; ND TRIM M I NG- MLJLIPCOLOR To 7.57 TAKE-UP TAB CARD f DERED f 5com-r {puma- FROM ROLL. O2 PAPER, SEQIAL Scoee LINE:

STOCK NUMBERMCT \NGRAiN Dlaamou CUTTlNG-TO CARBON APER COLLATNG GLUINGF J l7"n\x LENGTH -"L GLUE-D Acaoss \F To 5TOCK @TAB CARD CQMPONENTS G'EMN QPUONAL IN ROLL. FORM DmEcfloN r Y i CUTTING- ACEOSSG-RAlN z i 52 To FORM FiN\5HE-D 2 H TAB CARD SETS 6 73,75"

VACUUM SOURCE METHOD FOR FORMING TABULATING CARD SETS The present invention relates to a method for producing tabulating card sets having close dimensional tolerances such that commercially satisfactory cards having the grain thereof running in the transverse or short direction can be manufactured.

Tabulating card sets which comprise a bottom sheet of relatively inflexible paperboard and a number of overlying sheets of relatively flexible paper are in common usage in nearly every type of business. In particu lar. such card sets are used in great volume in credit card operations and for inventory control records. Normally. the bottom sheet of paperboard is designed to be used as an information storage device such as a tabulat ing machine punch card or the like, while the overlying paper sheets serve as receipts for the various parties to the transaction. Such tabulating punch cards typically are rectangular in shape and measure 7% by 3% inches, and they often are designed to have up to eighty columns of data in the longitudinal or major direction.

It has long been thought that the grain of the tabulating card must lie parallel to the longitudinal direction of the card in order to minimize elongation resulting from moisture absorption and to thus insure accurate performance of the card, note for example the U.S. Pat. to Lyall et al., No. 3,047,311. To achieve this result. manufacturers have fabricated such long grain" cards by a process wherein the cards are printed on a running length of card stock with the longitudinal direction of the card outlines extending longitudinally on the web. After printing, the individual cards are separated by a die stamping operation, collated, and secured together to form the card set. The above die stamping operation is the source of considerable expense and problems in that the dies are initially expensive, and they become misaligned and worn in normal usage and thus require periodic adjustment and replacement.

In accordance with the present invention, it has been found that by maintaining very accurate dimensional tolerances during the manufacturing operation, cards with the grain running in the transverse or short direction can be made which are suitable for use as an infor mation storage device in most applications. In addition, it has been found that the required dimensional tolerances can be readily achieved by employing a slitting operation to sever and form all four edges of the card, thus replacing the expensive and relatively slow die stamping operation as presently employed.

Accordingly, it is an object of the present invention to provide a process for the fabrication of tabulating card sets having very accurate dimensional tolerances such that commercially satisfactory cards having the grain thereof running in the short dimension can be fabricated.

It is a further object of the present invention to provide a process for producing tabulating card sets wherein all four edges of the card sets are severed by an economical slitting operation and wherein very accurate dimensional tolerances may be maintained. These and other objects and advantages of the present invention are achieved in the embodiments of the in vention illustrated herein by the provision of a method which comprises the steps of printing an advancing web of paperboard well as a number of advancing webs of paper with a desired card indicia to therebydefine a series of card outlines on each web, and with each card outline being oriented to lie transversely across the web. The webs are slit in both the longitudinal and transverse directions to separate the individual cards, the slits being maintained within a tolerance of a few thousandths of an inch in each direction. In one embodiment, the advancing webs are transversely cut after the longitudinal slitting has been accomplished to form cut lengths of the web and with each cut length including a plurality of printed card outlines. The cut lengths are then collated and interconnected prior to the transverse slitting operation.

In a second embodiment of the method of the present invention, the continuous webs are collated after the longitudinal slitting operations to form a continuous composite web. The composite web is interconnected along the side edge and then transversely cut to form a plurality of cut lengths each including a plurality of printed card outlines. The cut lengths are then transversely slit to form the individual card sets as in the first embodiment of the method.

Some of the objects and advantages of the invention having been stated, others will appear as the description proceeds, when taken in connection with the accompanying drawings, in which FIG. 1 is an isometric view of a tabulating card set produced by the method of the present invention;

FIG. 2 is a block diagram illustrating the various steps of one embodiment of the method of the present invention;

FIG. 3 is a schematic representation of an apparatus adapted to carry out the initial steps of the method described in FIG. 2;

FIG. 4 is a schematic representation of an apparatus for collating and gluing the cut lengths as produced by the apparatus of FIG. 3;

FIG. 5 is a schematic representation of an apparatus for slitting the cut lengths along a plurality of transverse lines to form the finished tabulating card sets;

FIG. 6 is an enlarged fragmentary side elevational view of the transverse slitting apparatus and taken substantially along the line 6-6 of FIG. 51

FIG. 7 is a block diagram illustrating a second embodiment of the method of the present invention;

FIG. 8 is a schematic representation of an apparatus for carrying out the initial steps of the method set forth in FIG. 7;

FIG. 9 is a schematic representation of an apparatus for carrying out the intermedite steps of the method set forth in FIG. 7;

FIG. 10 is a schematic representation of an apparatus for slitting the cut lengths along a plurality of transverse lines and which generally corresponds in construction to the apparatus shown in FIGS. 5 and 6.

Referring more specifically to the drawings, a tabu' lating card set produced according to the method of the present invention is illustrated generally at 20 in FIG. 1, and comprises a bottom card 22 of relatively inflexi ble paperboard and a plurality of alternately arranged carbon sheets 24 and paper sheets 26 overlying the paperboard card. All of the layers are interconnected by intermediate glue lines positioned at the removable end portion 28 defined by the score line 30. In addition, the card 22 and each of the sheets 26 are printed with a desired card indicia indicated generally at 32. As illustrated, the card set has an overall dimension of 7% by 3% inches (exclusive of the end portion 28) which is a from a supply roll 82 into an apparatus which comprises a series of stations 83, 84, 85, and 86. The stations 83, 84, and 85 generally correspond to the station 36, 37, and 38 of the previous embodiment, and they each comprise a conventional printing press. Thus the advancing web 80 may be printed at one or all of these stations with the desired card indicia and with the card outline being oriented to lie transversely across the web. Also, each card outline may, if desired, be serially numbered.

At the station 86, the advancing web 80 is intermittently slit by a suitable apparatus 87 to form the score line 30 along one side edge thereof. The apparatus 87 is generally similar to the apparatus 44 of the prior embodiment, and may for example comprise a circular blade having an interrupted edge. The other side of the advancing web 80 is continuously slit by the apparatus 88 at a predetermined location which is maintained within a tolerance of 0.003 inches in relation to the score line 30. As illustrated, the portion of the web removed by the continuous slitting operation is drawn away from the station 86 by a suitable vacuum source 90.

Upon leaving the station 86, the web 80 is wound onto a take-up reel to form the roll 92 of paperboard. As will be understood, a similar process and apparatus is used in connection with the webs from which the paper sheets 26 are fabricated, and such webs could be processed concurrently on the same or a separate apparatus. or they could be processed at a different time on the same equipment. In each case, the webs are wound into a roll for further processing.

The collating apparatus 94 is adapted to collate the continuous webs of paperboard and paper with intermediate continuous carbon sheets to form a continuous composite web 95. In particular, the apparatus 94 is adapted to mount the roll 92 of paperboard, together with rolls 96 and 98 of paper produced in the manner described above, and also two rolls 100 of continuous carbon sheeting. The various rolls are oriented on the apparatus 94 such that the composite web 95 has the paperboard along the bottom. and with the carbon and paper sheets alternately arranged thereupon. In operation, the apparatus 44 is designed to collate the continuous webs such that the printed card outlines of each web are aligned with the card outlines of each adjacent web. Also, the apparatus includes suitable glue applying means 102 for applying a line of adhesive to one side edge of the webs emanating from the

rolls

92, 96, and 100. Thus in the composite web 95, the various layers will be interconnected by the adhesive which is positioned along the side edge which forms the removable end portion 28 of the card set 20.

The composite web 95 is next drawn through a transverse cutting apparatus which comprises the rotating transverse cutting blade 104. As in the first embodiment, each cut length 105 formed from the composite web includes five card outlines, and is about 17 inches in length. Thus the cut lengths 105 resulting from the method of FIGS. 7 through are substantially similar in construction to the cut lengths 50 resulting from the first embodiment of the present method.

The cut lengths 105 are piled to form a stack 106 which is placed in the transverse slitting apparatus 108. The slitting apparatus 108 is substantially equivalent in structure and function to the above described apparatus 66, and thus will not be described further herein.

As will be apparent, the second embodiment of the method of the present invention and as illustrated in FIGS. 7 through 10 is well adapted for high speed operations, and thus is normally employed in the case of large orders. The first embodiment of the method and as shown in FIGS. 2 through 6 is generally employed in the case of smaller short run orders.

In addition, it should be pointed out that while the paperboard has been described herein as the bottom sheet" of the tabulating card set for purposes of description, it will be understood that the paperboard could be positioned on the top or at any intermediate level in certain isolated cases.

In the drawings and specification, there has been set forth a preferred embodiment of the invention, and although specific terms are employed, they are used in a generic and descriptive sense only and not for purposes of limitation.

That which is claimed is:

1. A method for producing tabulating card sets with each set comprising a bottom card of relatively inflexible paperboard and a plurality of alternately arranged carbon sheets and paper sheets overlying the paperboard card and interconnected thereto along a removable end portion, and with each tabulating card set having a dimensional tolerance within a few thousandths of an inch in both the longitudinal and transverse directions such that the paperboard card may be used as an information storage device such as a tabulating machine punch card or the like. and comprising the steps of advancing a continuous web of the paperboard and a plurality of continuous webs of paper from associated supply rolls and with the grain of each web extending in the longitudinal direction,

printing each of the advancing webs with a desired card indicia to define a series of card outlines and with each card outline being oriented to lie transversely across the web,

forming a score line by intermittently slitting each of the advancing webs, the score line extending along one side edge thereof to define a removable end portion along each card outline, continuously slitting each of the advancing webs at a predetermined location along the other side edge of the advancing web while maintaining such predetermined location within a tolerance of a few thousandths of an inch in relation to the score line,

collating the continuous webs with intermediate con tinuous carbon sheets to form a continuous composite web and with the printed card outlines of each web being aligned with the card outlines of each adjacent web,

interconnecting the composite web along the side edge thereof which comprises the removable end portions,

transversely cutting the composite web at regular spaced locations along the length thereof such that each cut length includes a plurality of printed card outlines, and then transversely slitting the cut lengths of the composite web at a plurality of locations and along each transverse side edge of each card set to thereby form a plurality of individual card sets while maintaining a tolerance of a few thousandths of an inch between each transverse slitting line, whereby all four edges of the resulting card sets are formed by a slit- 3. The method as defined in claim 2 wherein the step of collating the continuous webs includes withdrawing each of the webs from its associated roll while withdrawing each of the continuous carbon sheets from a roll thereof.

Claims

1. A method for producing tabulating card sets with each set comprising a bottom card of relatively inflexible paperboard and a plurality of alternately arranged carbon sheets and paper sheets overlying the paperboard card anD interconnected thereto along a removable end portion, and with each tabulating card set having a dimensional tolerance within a few thousandths of an inch in both the longitudinal and transverse directions such that the paperboard card may be used as an information storage device such as a tabulating machine punch card or the like, and comprising the steps of advancing a continuous web of the paperboard and a plurality of continuous webs of paper from associated supply rolls and with the grain of each web extending in the longitudinal direction, printing each of the advancing webs with a desired card indicia to define a series of card outlines and with each card outline being oriented to lie transversely across the web, forming a score line by intermittently slitting each of the advancing webs, the score line extending along one side edge thereof to define a removable end portion along each card outline, continuously slitting each of the advancing webs at a predetermined location along the other side edge of the advancing web while maintaining such predetermined location within a tolerance of a few thousandths of an inch in relation to the score line, collating the continuous webs with intermediate continuous carbon sheets to form a continuous composite web and with the printed card outlines of each web being aligned with the card outlines of each adjacent web, interconnecting the composite web along the side edge thereof which comprises the removable end portions, transversely cutting the composite web at regular spaced locations along the length thereof such that each cut length includes a plurality of printed card outlines, and then transversely slitting the cut lengths of the composite web at a plurality of locations and along each transverse side edge of each card set to thereby form a plurality of individual card sets while maintaining a tolerance of a few thousandths of an inch between each transverse slitting line, whereby all four edges of the resulting card sets are formed by a slitting operation with the tolerance maintained within a few thousandths of an inch.

2. The method as defined in claim 1 comprising the further step of winding each of the advancing webs into a separate roll after the intermittently slitting step and the continuously slitting step.

3. The method as defined in claim 2 wherein the step of collating the continuous webs includes withdrawing each of the webs from its associated roll while withdrawing each of the continuous carbon sheets from a roll thereof.