The present invention relates to a method of delivering a printed product to a binding or mailing line, and more particularly to a method of sequentially delivering printed products to a binding or mailing line.
Book as used herein refers to books, catalogs, magazines, pamphlets, envelopes and other printed materials. Books are typically assembled through either conventional saddle stitch or perfect binding processes and it should be noted that the present invention may be used in conjunction with saddle stitch, perfect binding, and other binding methods.
Publishers of printed media are continually looking to gain market share by maintaining and increasing the number of subscribers to its printed media. To help the publishers achieve their goals, printers provide publishers the capability of customizing printed media based on general demographic regions, the particular recipient, and the recipient's interests.
Books are generally comprised of one or more signatures. Signature as used herein generically refers to paper pages and/or packaging inserts. A signature may be printed by a printing press, a laser printer, an ink jet printer, a non-contact printer or any other type of printer. Printed products include both books and signature.
A book may be customized by including particular signatures within the book based on the location where the book will be sold. Books may be customized by including particular signatures within the book based on characteristics and interests of the recipient. Books may also be customized with the addition of inserts, inserts, electronic media, and the like.
A book may be further customized by including unique personalized information or indicia related to the recipient. A common way to personalize the book is to print the recipient's name and address information on the cover of the book once the book is assembled. The book may be further personalized by printing personalized indicia onto one or more signatures before or after the signatures are assembled into a book.
Signatures are often personalized while they are on the binding line by using an ink jet printer positioned near the binding line. As the signatures pass the ink jet printer, personalized information or indicia is printed onto one or more of the signatures or covers. Signatures may also be pre-personalized in a separate off-line printing process prior to being fed onto the binding line.
The present invention provides a method of combining a plurality of mail streams into one mail stream, each piece of mail including a sequence code including providing a mailing line including a plurality of pockets, placing the plurality of mail streams into the plurality of pockets, one mail stream in each pocket, reading the sequence code on the pieces of mail that are next-in-line to be delivered to the mailing line, and delivering the piece of mail to the mailing line based on the sequence code.
The binding line 10 includes a reader 16, i.e., bar code reader, scanner, etc., adjacent to each feeder 12. The readers 16 connect to a controller 18, as is known in the art, that processes the output from the readers 16. A suitable controller 18 is the FCS 2000 available from Quad/Tech, Inc. in Sussex, Wis. The controller 18 connects to the feeders 12 to control the delivery of the appropriate signature to the conveyor line 14.
The binding line 10 may include additional feeders, a print station, an inspection station, a stitcher, a trimming station, and a stacker downstream of the feeders 12 as are known in the art. The additional feeders positioned downstream of the feeders 12 may feed additional signatures and/or selective items, such as, order forms, postcards, special-interest publications, CD-ROMs, DVDs, subscription cards, promotional offers, coupons, etc. The print station can include an ink jet printer that prints personalized indicia, i.e., recipient name and address, on the cover or on an interior page of a book. The inspection station inspects each book for appropriate thickness or print quality by a caliper or other sensor. This information is transmitted to the controller 18, which compares the measured thickness or print quality with a reference thickness or print quality in order to determine if the book has been appropriately assembled. If an error was made in the assembly of the book, the book is rejected from the binding line 10.
The stitcher binds, i.e., stapled, glued, stitched, and fastened, each book, and the trimming station trims the edges of each book. The stacker bundles together books that are being delivered to a common zip code, or other predetermined order, for easy handling by the U.S. Postal Service. Other stations or operations may be included in the binding line 10 that are known in the art.
One embodiment of the method of the invention is illustrated in the flow chart in
Each wound roll 22 is positioned adjacent to a feeder 12 and each signature 20 is separated from the role and fed through the corresponding feeder 12 toward the reader 16 at step 36. At step 38, the reader 16 reads the sequence code 24 on each signature that is nearest the conveyor line 14, that is, next-in-line. At step 40, the controller 18 analyzes the outputs from each of the readers 16 to determine which signature of those that are next-in-line for each roll 22 is next in the assembly order. The controller 18 sends a signal to a respective feeder 12 to feed the next signature in the assembly order at step 42. Once a signature is fed to the conveyor line 14, the next signature on the roll takes its place as being next-in-line. The process continues at step 38. The reader 16 reads the sequence code 24 on each signature that is next-in-line for each roll 22. The controller 18 analyzes the reader 16 output and transmits a signal to the feeder 12 to feed the next signature in the assembly order. It should also be noted that a signature could be separated from its respective roll 22 after the sequence code 24 thereon has been read by the reader 16.
Another embodiment of the invention is illustrated in the flow chart in
Next, an assembly order is generated at step 30A by analyzing the various files that generated each stream of books. Each stream of books is fed to a feeder 12. Each book is fed through the corresponding feeder 12 toward the reader 16 at step 36A. The reader 16 reads, at step 38A, the sequence code 24 on each book that is nearest the conveyor line 14. At step 40A, the controller 18 analyzes the outputs from each of the readers 16 to determine which book is next in the assembly order. The controller 18 sends a signal to the feeder 12 to feed the next book in the assembly order at step 42A to the mailing line. The process continues at step 38A. The reader 16 reads the order indicia 24 on each book that is nearest the conveyor 14. The controller 18 analyzes the reader 16 output and transmits a signal to the feeder 12 to feed the next book in the assembly order.
Turning now to
As shown in
Multiple POD technology components can be used on the binding line 60 as shown in
Referring now to
It should be noted that with all embodiments, books do not need to be assembled in the exact assembly order to ensure that the books are being manufactured correctly. Due to the sequence code and/or POD technology being utilized, a book can be assembled correctly as controlled by the controller, based on the code alone, regardless of sequence order. If mailing requirements change, the precise sequence the books are manufactured in becomes less important.
The present invention is not limited to the forms shown and described above. Alternate forms will be apparent to those skilled in the art and are within the intended scope of the present invention. The forms described herein are further intended to explain the best modes known for practicing the invention and to enable those skilled in the art to utilize the invention in such, or other, forms and with various modifications required by the particular applications or uses of the present invention. It is intended that the appended claims be construed to include alternative forms to the extent permitted by the prior art.
This application is a divisional application of U.S. patent application Ser. No. 10/378,135, filed Mar. 4, 2003, the entire contents of which is hereby incorporated by reference herein.
Number | Date | Country | |
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Parent | 10378135 | Mar 2003 | US |
Child | 11876054 | Oct 2007 | US |