CA2265748C - Multiple company integrated documents production - Google Patents

Abstract

A single document page with multiple different variable indicia from at leas t two discrete sources is produced using a computer control and an imaging system (such as a selective flexographic system with ion deposition or ink jet stations), variable database streams and variable data streams from at least two discrete sources are fed to the same computer control, which is then used to control the imaging system to merge the variable database streams and variable data streams from at least two discrete sources so that they may be imaged on the same document page. Paper is fed to the imaging system, and using the imaging system the same document page is imaged with variable database indicia from the multiple discrete sources. Three, or even more, discrete sources can be utilized, and each discrete source may also have a distinct form structure so that the variable data indicia an d variable database indicia are each placed in their own distinct form structure. The variable database streams may include company name and logo data, coupon data, direct marketing messages, and/or images, or the like, while the variable data streams includes alphanumeric characters which convey account and/or billing information. All of the indicia may be imaged on the same face of a single sheet (e.g. having a maximum length of about 12 inches and a maximum width of about 9 inches), and imagining may take place on a web which is then cut into individual single pages.

Description

WO 98/1540810152025CA 02265748 1999-03-157/,PCTIU S97/ 16653MULTIPLE COMPANY INTEGRATEDDOCUMENTS PRODUCTIONBACKGROUND AND SUMMARY OF THE INVENTIONPresent business practices worldwide are moving towardvariouscompanies forming alliances. For example, credit cardcompanies often offer products or services of other companies asincentives to use the credit cards. For example, airline frequent flyermiles may be offered, or reduced rates or free long distance telephoneservice on particular long distance carriers. Under thesecircumstances, it would be highly desirable to be able to produce asingle document for a particular end user (customer) which hadaccount or billing information from more than one differentcompany. __There are also many other circumstances, even where a directalliances between companies are not utilized, where it would behighly efficient and desirable to be able to provide a single end user(customer) with information about more than one different account inthe same document. This would save paper and mailing costs for thecompanies involved. A number of different companies could put outa "common" mailing in which for any common end users thenecessary account and/or billing information would be printed on thesame document. 9According to the present invention, the desired goals set forthabove can be accomplished in a realistic and cost effective mannerutilizing a computer control system, such as the Moore BusinessForms, Inc. (of Lake Forest, Illinois) XL Data System, and electronicSUBSTITUTE SHEET (RULE 26)WO 9811540810152025CA 02265748 l999-03- 15PCT/US97l16653information provided from a number of different companies can besuccessfully manipulated and merged during printing using knownflexographic printing equipment, or electronic imaging equipment, toproduce a single document page with multiple different variableindicia thereon from two or more discrete sources therein. Theequipment that is utilized to practice the invention may be theequipment such as disclosed in U.S. Patent Application SerialNo. 08/359,697, filed December 20, 1994 (also shown in PCTPublication WO 96/19352, published 27 June 1996), the disclosure ofwhich is hereby incorporated by reference herein.According to one aspect of the present invention, a method ofproducing a single document page with multiple different variableindicia thereon’, from at least two discrete sources, using a computercontrol and an imaging system is provided. The method comprisesthe steps of: (a) Feeding variable database streams and variable datastreams from at least two discrete sources to the same computercontrol. (b) Using the same computer control, controlling theimaging system to merge the variable database streams and variabledata streams from the at least two discrete sources so that they maybe imaged on the same document page. (c) Feeding paper to beimaged to the imaging system. And (d) using the imaging system,imaging the same document page with variable data indicia andvariable database indicia from the at least two discrete sources.Three discrete sources may be provided, each having uniquevariable database streams, and unique variable data stream, in whichcase steps (a) through (d) are practiced to image on the samedocument page three or more different variable data indicia, andSUBSTITUTE SHEET (RULE 26)W0 98ll5408CTI10152025CA 02265748 l999-03- 15PCT/U S97/ 16653variable database indicia. Each discrete source may also have adistinct form structure in which case step (a) is practiced to feed thedistinct form structures from the discrete sources to the computercontrol, and step (b) is practiced to merge the distinct form structuresfrom the discrete sources in the imaging system, and step (d) ispracticed to image the variable data indicia and the variable baseindicia on the same document page in their respective distinct formstructures from the discrete sources.While the variable indicia provided may encompass a widevariety ofdifferent forms, preferably the variable data base streamsinclude company name and logo data (and also perhaps couponinformation and/or direct marketing messages, and images), while thevariable data streams include alphanumeric characters which conveyat least one of account and billing information (such as a bank creditcard statement and associated frequent flyer miles for a particularairline that have been earned by using the credit card).Steps (a) through (cl) may be practiced to image on the sameface of a sheet -- having a maximum length of about twelve inchesand a maximum width of about nine inches (e. g. standard letter sizeor A4 paper) -- all of the desired data. Step (c) may be practiced tofeed the paper in web form to the imaging system, in which casethere is the further step (e), after step (d), of cutting the web intoindividual single pages. The imaging system may be a flexographicimaging system (such as in co-pending application Serial No.08/359,697), in which case step (d) is practiced to image indicia onthe single document pages flexographically, or non-variable data maySUBSTITUTE SHEET (RULE 26)W0 98Il5408C]!10152025CA 02265748 l999-03- 15PCT/U S97/ 16653be imaged flexographically and variable data with an ion depositionor ink jet printer, or the like.According to another aspect of the present invention, a singledocument page with multiple different variable indicia thereon, fromat least two discrete sources, produced using a computer control in animaging system, is provided. The document page is produced by thesteps of: (a) Feeding variable database streams and variable datastreams from at least two discrete sources to the same computercontrol. (b) Using the same computer control, controlling an imagingsystem to merge the variable database streams and variable datastreams from the at least two discrete sources so that they may beimaged on the same document page. (c) Feeding paper to be imagedto the imaging system. And ((1) using the imaging system, imagingthe same document page with variable data indicia and variabledatabase indicia from the at least two discrete sources.The document pages set forth above may be further producedby a method wherein (c) is practiced to feed the paper in web form tothe imaging system; and by the further step (e), after step (d), ofcutting the web into individual single pages including the documentpage. The document page may include variable data indicia andvariable data base indicia from three or more different sources, eachin discrete form structure on the page. The variable data base streamsmay include company name and logo data, direct marketingmessages, and/or images and the variable data streams may includealphanumeric characters which convey at least one of account andbilling information, e.g. so that the document page includes threeSUBSTITUTE SHEET (BULL; 26)W0 98/ 15408in10152025CA 02265748 l999-03- 15PCTIU S97/ 16653different company names and logos and three different accountand/or billing information character sets (e.g. on the same face).According to another aspect of the present invention a singledocument page having a first face for delivery to a predeterminedindividual is provided comprising the following elements: First andsecond distinct form structures. First and second distinct variabledatabase indicia for the predetermined individual. First and seconddistinct variable data indicia for the predetermined individual. Thefirst variable database indicia and first variable data indicia imaged inthe first form structure on the single document page first face. Andthe second variable database indicia and second variable data indiciaimaged in the second form structure on the single document page firstface.The page as set forth above may be in combination with, andcontained within, an envelope with address indicia thereonidentifying the predetermined individual. The variable data baseindicia may comprise company name and logo indicia, directmarketing messages, and/or images, while the variable data indiciacomprises alphanumeric characters which convey at least one ofaccount and billing information. Three, or even more, distinct formstructures, variable database indicia, and variable data indicia, maybe provided.It is a primary object of the present invention to efficientlyproduce and present variable data from at least two discrete sourceson the same document page. This and other objects of the inventionwill become clear from a detailed description of the invention andfrom the appended claims.SUBSTITUTE SHEET (RULE 26), ......,....m..._......_....._......y.....x......,,......_,, .. . .. ...,.W0 98/ 1540810152025CA 02265748 l999-03- 15PCTlUS97/ 16653BRIEF DESCRIPTION OF THE DRAWINGSFIGURE 1 is a top plan view of the first embodiment of anexemplary single document page according to the present invention;FIGURES 2A and 2B are rear and front perspective views,respectively, of the document page of FIGURE 1 in association withan envelope to be mailed;FIGURE 3 is a view like that of FIGURE 1 for a secondembodiment of document page according to the present invention;FIGURE 4 is a diagrammatic representation illustrating theproduction of image, form structure, and variable alphanumericcharacters, for integration to produce the document page of FIGURE3; andFIGURE 5 is a diagrammatic view schematically illustratingvarious apparatus that may be utilized to practice the methodaccording to the present invention.DETAILED DESCRIPTION OF THE DRAVVINGSA single document page that is produced according to thepresent invention is illustrated, in a first embodiment thereof,generally by reference numeral 10 in FIGURES 1 and 2A, 2B. On afirst face 1 1 of the document page 10 are first and second distinctSUBSTITUTE SHEET (RULE 26)W0 98/ 1540810152025CA 02265748 l999-03- 15PCT/U S97/ 16653form structures, shown generally by reference numerals 12 and 13 inFIGURE 1. First and second distinct variable database indicia for apredetermined individual, who is to receive delivery of the documentpage 10, are also provided, illustrated schematically at 14 and 15 inFIGURE 1. First and second distinct variable data indicia for thepredetermined individual are illustrated schematically at 16 and 17 inFIGURE 1. The first variable database indicia 14 and the first 'variable data 16 are imaged (e.g. printed in flexographic printing,with toner, e.g. electronically such as using a Moore Business FormsMidax® system, or like electrostatic printing techniques, or with inkjet printers) on the face 11 in the first form structure, while thesecond variable database indicia is obtainable and second variabledata indicia 17 are imaged in the second form structure 13 on the face1 1.The variable database indicia 14, 15 may comprise thecompany name and logo, such as illustrated in FIGURE 1. Forexample, the company name and logo 14 may be a bank name orlogo, the bank issuing a credit card statement. The indicia 15 may bean airline name or logo, e.g. an airline issuing frequent flyer accountinformation. While the form structures 12, 13 are illustrated as indifferent formats in FIGURE 1, if desired the form structures 12, 13can actually have the same format, but would remain distinct becauseof the indicia 14-17 associated therewith.The variable data indicia 16, 17 may also be from a widevariety of different sources or types, but preferably includesalphanumeric characters which convey at least one of account andbilling information.SUBSTITUTE SHEET (RULE 26)W0 98/1540810152025CA 02265748 l999-03- 15PCT/US97/16653The document page 10 is designed to ultimately be sent to thepredetermined individual, such as within the envelope 19 illustratedin FIGURES 2A and 2B. The envelope 19 may be of anyconventional type, including having a flap 20 with adhesive 21thereon that is sealed, and may have a window 22 (e.g. through whichthe address information/indicia 23 appears). The address indicia 23,which is variable address indicia corresponding to the predeterminedindividual for whom the account/or billing information on the sheet10 is provided, may be imaged on the opposite face 24 ofthedocument page 10 from the face 11 (see FIGURES 1 and 2B), or theaddress information 23 may be imaged on the face 1 1 and the page10 folded or positioned within the envelope 19 (either of the sizeillustrated in FIGURES 2A and 2B, or a size corresponding to the fullsize of the document page 10) so that the address information 23 isvisible either through a window 22, or read by a scanner to produce asolid faced envelope with the address indicia imaged thereon eitherdirectly, or on a label which is then placed on the envelope 19.The document page 10 may be conventional paper, ofconventional size, e.g. preferably conventional letter size or A4paper, e. g. having a maximum length of about 12 inches (e.g. about1 1 inches) and a maximum width of about 9 inches (e.g. about 8 ‘/2inches); however the document page 10 is not limited to anyparticular maximum or minimum length or width. While normally acut sheet form for the page 10 is desirable, under some circumstancesit may be connected to other similar pages 10' -— as seen in FIGURE 1—- by lines of weakness at one edge ofthe document page 10, such asthe perforation line 26.SUBSTITUTE SHEET (RULE 26)W0 98/1540810152025CA 02265748 l999-03- 15PCT/US97I 16653Instead of the address indicia 23, or in addition to it, othervariable indicia, or non-variable indica, may be imaged on the face24, and on the connected document or documents 10‘.FIGURE 3 shows another embodiment of a document page 27according to the present invention. In this document pagecomponents that are the same as, or directly comparable to, those inthe FIGURE 1 embodiment are shown by the same referencenumeral. In this particular embodiment, a third discrete formstructure 28 is provided having unique variable database indicia 29,and unique data indicia 30, again associated with the samepredetermined individual data indicia 14-17. Also, in this particularsituation coupon indicia 31 is imaged in association with the formstructure 12. If the coupon information 31 is in image (e.g. pictorialor design) form, it will be part of the unique database indicia 14,whereas if it is strictly in alphanumeric characters, it will be part ofthe data indicia 16. A logo would have image data associatedtherewith and therefore would be part of the database indicia 14.Similar coupon indicia 32 is associated with a third form structure 28,and variable message of coupon indicia shown generally at referencenumeral 33 may be associatediwith the second form structure 13.While more than three different form structures 12, I3, 28,with associated indicia, may be imaged on the same document 27face 1 I, normally three is the maximum in order to provide anappropriate look for conventional letter size or A4 sheets. However,if longer sheets (such as legal size) are utilized, or continuationsheets, such as the sheet 10' in FIGURE 1 are utilized, an almostSUBSTITUTE SHEET (RULE 26)W0 98/15-40810152025CA 02265748 l999-03- 15PCT/US97/1665310endless number of form structures from different sources may beimaged, and provided to the same individual in a single mailing. ‘FIGURE 4 schematically illustrates the assembly of theelectronic data that is utilized to image the pages 10, 27. FIGURE 4is illustrated for the embodiment, corresponding to FIGURE 3, wherethree discrete sources of data (different companies) are assembled,ultimately to be used within an integrated printing system.The first component of the system illustrated in FIGURE 4 isthe database image processing system shown schematically at 35.This receives variable database streams, typically including imagedata, from three different image database sources 36, 37, 38. Theprocessing system 35 may receive database streams electronicallyfrom different locations where the image databases 36-38 areprovided, e.g. over the phone lines, or by a computer disc, or in anyother conventional manner.The variable data processing system 39 receives variable datastreams from the three different sources 40-42. This information alsopreferably is received electronically.The forms pre-print management system 43, which controls thediscrete form structures, receives form pre-print streams from thethree different sources 44-46. The single outputs 47, 48, 49,respectively, in the systems 35, 39, 43 are all ultimately used inintegrated printing systems, being provided in electronic form, eitherby a disc, tape, over phone lines, or the like. The output 49 may befilm or a plate.The systems 35, 39, 43 are computer systems for as simulatingthe data and may be different parts of the same main frame computerSUBSTITUTE SHEET (RULE 26)W0 98/1540810152025CA 02265748 l999-03- l5PCT/US97l1665311or separate processors integrated (i.e. client/server work stations ordisc processors). An exemplary data record associated with theoutputs 47-49 from the systems 35, 39, 43 is illustrated at 51 inFIGURE 4.FIGURE 5 schematically illustrates an integrated printingsystem 50 that may be utilized according to the present invention,which system may be as described with respect to said co—pendingapplication Serial No. 08/359,697. The system 50 includes acomputer control 53, which preferably is a Moore XL Data System,which receives the inputs 47, 48, 49 from the FIGURE 4 systems.The XL Data System 53 is connected up to an operator terminal 54,and includes a high speed data transfer module (HDT). A jobcomposition, second, computer 55 may be provided which has two-way communication -- as indicated at 56 —— with the main computercontrol53, and which may have remote proofing capabilities at thecompany sites to provide the data (e. g. the site of origin of the datastreams 36, 40, 44), such communication being illustratedschematically at 57. Optionally line 58 from monitor 54 of computercontrol 53 may provide input to a production ‘statistics/A/DT trailfiles unit 59, which may in turn be connected as indicated at 60 toanother computer 61 which has a quality architecture database. Thecomputer 61 will provide document verification and job reportingand is connected -- as indicated schematically at 62 in FIGURE 5 --to optional scanners 63, 64 associated with the actual imaging systemshown schematically and generally by reference numeral 65 inFIGURE 5.SUBSTITUTE SHEET (RULE 26)W0 98ll540810152025CA 02265748 1999-03-15PCT /U S97/ 1665312In the embodiment schematically illustrated in FIGURE 5 theimaging system 65 includes a conventional paper feeding meansshown schematically at 66. While this may be a sheet feeder,preferably it is a paper web on line. The system 65 may include anion deposition print unit, shown schematically by reference numeral67, such as a Midax® 300 print engine commercially available fromMoore Business Forms, Inc. One or more turn bars, illustratedschematically at 68 in FIGURE 5, may be provided, and a second iondeposition print unit 69 may also be provided. A plurality offlexographic print units 70 are also provided, and the distinct formstructure 49 may be supplied directly to the selective flexographicprint station 70 controls rather than through the central computercontrol 53, both options being schematically illustrated in FIGURE 5.The computer control 53 does control all of 67, 69, 70, however, aswell as a conventional selective perforation station 71 (e.g. forperforming perforations such as 26 in FIGURE 1), one or more videoinspection stations 72, and an appropriate paper handling mechanism73 at the end of the system 65. The equipment 73 may be a webrewind, and the rewound web may be transported to another site forseparation into the individual document pages 10, 27; or unit 73 -- asschematically illustrated in FIGURE 5 may be a cutoffshecter/stacker which forms the individual document pages 10, 27.Other conventional paper handling equipment may also be utilized asthe equipment 73.Utilizing the systems as illustrated in FIGURES 4 and 5 themethod of producing a single page document 10, 27 with multipledifferent variable indicia 14-17, 29,30 thereon from at least twoSUBSTITUTE SHEET (RULE 26)WO 98115408(,110152025CA 02265748 l999-03- 15PCT/US97/1665313discrete sources (36, 40, 44, in FIGURE 4 being one source; 37, 41,45 a second source, and 38, 42, 46, the third source, for example)using the computer control 53 in the imaging system 65 may beprovided. The method includes the steps of: (a) Feeding variabledatabase streams 36, 37, 38, composed by the database imageprocessing system 37 to produce common streams 47, and variabledata streams 40, 41, 42, composed by the variable data processingsystem 39 and composed to provide the output streams 48,from atleast two discrete sources to the same computer control 53. (b) Usinga computer control 53, controlling the imaging system to merge thevariable database streams 47 and variable data streams 48 from the atleast two discrete sources so that they may be imaged on the samedocument page 10, 27. (c) Feeding paper, such as with unwind 66, tobe imaged to the imaging system 65. And (d) using the imagingsystem 65, imaging the same document page 10, 27 with variabledata indicia 16, 17, 30 and variable database indicia 14, 15, 29 fromthe at least two discrete sources. Preferably each discrete source alsohas a distinct form structure as illustrated at 44, 45, 46 in FIGURE 4,which distinct form structures are composed by the system 43 toproduce the output 49 which also acts through the computer 53 or"directly through the individual computer controls for the selectiveflcxographic print station 70 to merge the distinct form structuresfrom the discrete sources to image the steams to produce the indicia14-17, 29, 30-33 in the appropriate form structures 12, 13, 28. Thevariable database streams ultimately provided in the compositestreams 47 preferably comprise image data, such as company nameand logo data, whereas the variable data streams composed in theSUBSTITUTE SHEET (RULE 26)W0 98/1540810152025CA 02265748 l999-03- 15PCT/US97/ 1665314streams 48 include alphanumeric characters which convey at leastone of account and billing information, as schematically illustrated inFIGURES 1 through 3, on the final document pages 10, 27 produced.Steps (a) through ((1) may be practiced to image on the same face ofthe sheet 10, 27 having a maximum length of about 12 inch and amaximum width of about 9 inches. Step (c) may be practiced to viewthe paper in the web form -- as illustrated at 66 —- to the imagingsystem 65, in which case there is the further step (e), after step (d), ofcutting the web into individual single pages, such as utilizing thecutoff sheeter/stacker 73 schematically in FIGURE 5. The variableindicia is preferably imaged flexographically using the selectiveflexographic print unit 70, while non-variable data is imaged oneither one or both sides of the sheets using the ion deposition printstation 67, 69, or the majority of parts ofthe variable indicia 14-17,29, 30 may be imaged by the flexographic print unit 70 while theparticular personalized parts such as the account name and numberand numerical values are imaged by the ion deposition print units 67,69.While it will thus be seen that according to the presentinvention a single document page may be produced which hasvariable data from two or more discrete sources. For example, withrespect to the embodiment illustrated in FIGURE 3 the documentpage 27 may have imaged on a single face 27 a form structure 12including indicia 14, 16, 31 providing a credit card issuing bank logo,coupon, and account information, a form structure 13 having airlinename and logo 15 and variable message 33 with frequent flyeraccount information 17, and a long distance telephone company (orSUBSTITUTE SHEET (RULE 26)W0 98l15408U‘!10CA 02265748 l999-03- 15PCTIU S97/ 1665315other business) form structure 28 having a logo and business name29, variable coupon 32, and statement or account indicia 30. Thus,the same addressee gets in the same mailing relevant informationfrom three different companies, which makes it easy for the recipientto process, and reduces mailing and printing costs and expenses forthe issuing companies.While the invention has been herein shown and described inwhat is presently conceived to be the most practical and preferredembodiment thereof, it will be apparent to those of ordinary skill inthe art that many modifications may be made thereof within the scopeof the invention, which scope is to be accorded the broadestinterpretation of the appended claims so as to encompass allequivalent methods, products, and devices.SUBSTITUTE SHEET (RULE 25)

Claims (12)

CLAIMS:

1. ~A method of producing a single document page for supply to a customer, the page having multiple different variable indicia thereon, the variable indicia being sourced from at least two different companies in different locations, each company constituting a discrete data source, using a computer control and an imaging system, comprising the:
(a) feeding to the computer control from each of the at least two discrete data sources; a variable database stream including company specific indicia and a variable data stream including customer specific indicia;
(b) using the same computer control, controlling the imaging system to merge the variable database streams and variable data streams from the at least two discrete data sources so that variable data indicia and variable database indicia from each discrete data source may be~
imaged together on the same document page;
(c) feeding paper to be imaged to the imaging systems and (d) using the imaging system, imaging the single document page with variable data indicia and variable database indicia from each discrete data source.

2. ~A method as recited in claim 1 wherein three discrete sources, each having unique variable database streams, and variable data streams are provided, and wherein steps (a)-(d) are practiced to image on the same document page three different variable data indicia, and variable database indicia.

16a

3. ~A method as recited in claim 1 wherein each discrete source has a distinct form structure; and wherein step (a) is practiced to feed the distinct form structures from the discrete sources to the computer control, step (b) is practiced to merge the distinct form structures from the discrete sources in the imaging system, and step (d) is practiced to image the variable data indicia and variable database indicia on the same document page in their respective distinct form structures from the discrete sources.

4. A method as recited in claim 2 wherein each discrete source has a distinct form structure; and wherein step (a) is practiced to feed the three distinct form structures from the three discrete sources to the computer control, step (b) is practiced to merge the three distinct form structures from the discrete sources in the imaging system, and step (d) is practiced to image the variable data indicia and variable database indicia on the same document page in the three distinct form structures from the discrete sources.

5. A method as recited in claim 1 wherein the variable database streams include company name and logo data, and wherein the variable data streams include alphanumeric characters which convey at least one of account and billing information.

6. A method as recited in claim 2 wherein the variable database streams include company name and logo data and other direct market messages and images, and wherein the variable data streams include alphanumeric characters which convey at least one of account and billing information.

7. A method as recited in claim 3 wherein the variable database streams include company name and logo data, and wherein the variable data streams include alphanumeric characters which convey at least one of account and billing information.

8. A method as recited in claim 1 wherein steps (a) - (d) are practiced to image on the same face of a sheet having a maximum length of about twelve inches and a maximum width of about nine inches.

9. A method as recited in claim 8 wherein step (c) is practiced to feed the paper in web form to the imaging system; and comprising the further step (e), after step (d), of cutting the web into individual single pages.

10. A method as recited in claim 9 wherein the imaging system includes a selective flexographic imaging system, and wherein step (d) is practiced to image some indicia on the single document pages flexographically.

11. A method as recited in claim 1 wherein step (c) is practiced to feed the paper in web form to the imaging system; and comprising the further step (e), after step (d), of cutting the web into individual single pages.

12. A method as recited in claim 1 wherein the imaging system includes a selective flexographic imaging system, and wherein step (d) is practiced to image some indicia on the single document pages flexographically.