U.S. patent application number 15/694121 was filed with the patent office on 2018-01-25 for information-protected window send envelope with adhered inside address patch.
The applicant listed for this patent is Broadridge Customer Communications, LLC. Invention is credited to Frank W. Delfer.
Application Number | 20180021817 15/694121 |
Document ID | / |
Family ID | 59701256 |
Filed Date | 2018-01-25 |
United States Patent
Application |
20180021817 |
Kind Code |
A1 |
Delfer; Frank W. |
January 25, 2018 |
INFORMATION-PROTECTED WINDOW SEND ENVELOPE WITH ADHERED INSIDE
ADDRESS PATCH
Abstract
Printed transactional documents are enclosed in a document
size-inclusive envelope that gives the appearance of being a
traditional windowed envelope in which the send address shows
through from the address vehicle page inside, but actually has the
address printed on an adhered patch that shows through the window,
keeping the data inside more protected and allowing production
processes to be more efficient, and the patch or envelope has a
serialized identifier that ensures the address printed on the patch
and seen in the window corresponds with the document on the
inside.
Inventors: |
Delfer; Frank W.; (Incline
Village, NV) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Broadridge Customer Communications, LLC |
Jersey City |
NJ |
US |
|
|
Family ID: |
59701256 |
Appl. No.: |
15/694121 |
Filed: |
September 1, 2017 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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15239251 |
Aug 17, 2016 |
9751112 |
|
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15694121 |
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62207207 |
Aug 19, 2015 |
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Current U.S.
Class: |
235/375 |
Current CPC
Class: |
B65D 27/04 20130101;
B07C 3/18 20130101; B42D 15/0053 20130101; B07C 3/20 20130101; B42D
15/08 20130101 |
International
Class: |
B07C 3/20 20060101
B07C003/20; B42D 15/00 20060101 B42D015/00; G06K 19/06 20060101
G06K019/06; B65D 27/04 20060101 B65D027/04 |
Claims
1. A postal authority-compliant and document size-inclusive
envelope for containing one or more documents having address
information and of one or more pages, with each document of fixed
or variable sizes, in which document information is protected from
outside-the-envelope viewing, comprising the document
size-inclusive mailing envelope having a cutout window and
dimensioned to accept one or more variably sized documents.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority to, and the benefit of,
U.S. provisional patent application Ser. No. 62/207,207 filed on
Aug. 19, 2015, incorporated herein by reference in its
entirety.
STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT
[0002] Not Applicable
INCORPORATION-BY-REFERENCE OF COMPUTER PROGRAM APPENDIX
[0003] Not Applicable
COPYRIGHT PROTECTION
[0004] A portion of the material in this patent document is subject
to copyright protection under the copyright laws of the United
States and of other countries. The owner of the copyright rights
has no objection to the facsimile reproduction by anyone of the
patent document or the patent disclosure, as it appears in the
United States Patent and Trademark Office publicly available file
or records, but otherwise reserves all copyright rights whatsoever.
The copyright owner does not hereby waive any of its rights to have
this patent document maintained in secrecy, including without
limitation its rights pursuant to 37 C.F.R. .sctn.1.14.
BACKGROUND
Technical Field
[0005] The subject invention pertains generally to the manner in
which transactional documents, such as bills, statements, and the
like, are enclosed in envelopes in order to be mailed to recipients
via First Class US Mail. More specifically, the subject invention
relates to a document size-inclusive window send envelope that
appears to present an address through a cutout window that is
printed on an inner document, but, in fact, is an internal document
information-protected window send envelope that shows an opaque
address patch adhered to the inside of the envelope that is
specifically matched with the inside document(s).
Background Discussion
[0006] Transactional documents such as bills, statements, and the
like often contain sensitive and timely financial and/or health
care information about the recipient that the document's sender is
responsible for protecting until it is in the recipient's hands. In
recent years federal law has increased the penalties for service
providers who fail to adequately protect such information.
[0007] This protection responsibility can be legally transferred to
the US Postal Service (USPS) if the document is sent via First
Class mail in a properly addressed envelope complying with
applicable USPS standards. Mail pieces bearing delivery addresses
in compliance with this standard enjoy the full protection of the
U.S. Postal Inspection Service, the primary federal law enforcement
and security arm of the USPS. Postal Inspectors protect customers
and investigate criminals who fraudulently misuse the U.S. Mail to
commit crime. Through its security and enforcement functions, the
Postal Inspection Service provides assurance to postal customers
that their mail will be delivered safely and securely.
[0008] The same protections are available from other domestic and
international postal authorities, so the term "postal authority"
refers to all domestic and international mail delivery services
that provide a level of security substantially the same as that of
the United States Postal Service.
[0009] To help ensure that documents are properly addressed,
senders of First Class mail, long ago, mostly abandoned the idea of
printing a recipient's mailing address on the outside of the
envelope, opting instead to cut a hole or "window" through the
envelope so that the address printed on the document inside showed
through. This eliminates the risk of the address on the outside not
matching the address on the document inside the envelope.
[0010] At the same time, senders of less-sensitive and less-timely
information such as advertisements have mostly opted to send
documents via Standard Class mail using envelopes that do have the
recipient's address printed on the outside. In many cases the
contents are the same for each recipient. The outside-printed
address is an advantage for such mailers because it eliminates the
need to mechanically align a send address printed on the document
inside with the mailing envelope window.
[0011] There are various consequences of the current practices.
Over time, mail recipients have become accustomed to, at a glance,
considering the windowed envelope as an indicator of how important
a particular mail piece is and whether it is personalized for the
recipient or just a generic advertisement that can be discarded
without being opened. Thus, the mere presence or absence of a send
envelope window can play a valuable role in determining the degree
of attention paid to the mail piece by the recipient and whether it
will be opened, regardless of the envelope's actual contents. This
makes First Class mailers extremely reluctant to abandon the use of
windowed envelopes for fear the envelope will be discarded
unopened.
[0012] At the same time, mergers and acquisitions in the financial,
health care, and telecommunications industries and the consequent
drive to reduce costs through consolidation has led to the need to
make large numbers of document types with many different address
locations and fold specifications share the same windowed envelope
design so they can be processed in the same production run and
mailed more efficiently.
[0013] However, these efforts have been stymied by several
critical, competing factors. For example, the different locations
of send addresses printed on the different types of documents
pushes mailers to enlarge the envelope window so the same envelope
can accommodate different send address locations, but the need to
protect Personally Identifiable Information (PII) printed near the
send address location from being viewed through the envelope window
pushes mailers to shrink the envelope window to keep the PII data
secure.
[0014] Further, mailers have an incentive to keep the envelope's
size large so that high speed inserting equipment can run more
efficiently, but this gives the document inside more room to move
around, requiring the mailer again to increase the size of the
window to accommodate the moving address, but once again only at
the risk of exposing more PII data.
[0015] Mailers often address the above problems by adding an
additional sheet to the document, a cover page whose purpose is
solely to present the mailing address in a manner that is
mechanically aligned with the envelope's window, which effectively
protects all PII on the pages behind, sometimes called an Address
Vehicle Page (AVP) (see FIG. 1--PRIOR ART).
[0016] One of the problems associated with this AVP method is the
additional production cost of the extra sheet, which must be
produced in line with the other sheets in the document, often
during peak demand periods, plus the additional postage cost of the
extra weight. In the case of international mailings, part of the
postage cost is directly related to total package weight. With
mailings typically numbering in the millions of mail pieces for a
large scale mailing facility, every gram/ounce counts and these
costs can create a substantial barrier to the method's use, often
substantial enough to negate its utility. In addition,
environmentally conscious recipients often complain to the sender
that the AVP is a waste of paper and environmentally unsound.
[0017] Yet further, mailers have an incentive to use the same
envelope for documents that consist of a small number of sheets, as
those that have a large number of sheets, because they can be
processed in the same production run and placed into the same
mailing tray, substantially reducing postage costs. However, the
large variance in the number of sheets from one document to the
next impacts the alignment of the send address within the envelope
window (see FIG. 2--PRIOR ART), which pushes the mailer to increase
the size of the window, only to once again increase the risk of
exposing more PII data.
[0018] Yet additionally, mailers have an incentive to use the same
equipment and processes to insert the widest possible array of
document types efficiently, but still end up with each document's
send address properly aligned with the send envelope window. As
seen in FIG. 3--PRIOR ART, this presents a complex variety of
permutations, considering just the most common combinations of
document folding habits, and send address locations (i.e. either at
the top of the page or at the bottom of the page, whether the
documents are presented to the inserting machine face up or face
down, and whether the documents are fed into the equipment either
head first or foot first).
BRIEF SUMMARY
[0019] An object of the technology described herein is to provide a
mailing package, method of mailing, and system for creating postal
authority-compliant mail pieces that have the same look and feel as
windowed transactional mail pieces but are produced as efficiently
as mail pieces with sprayed-on addresses and internal document
information is protected from viewing through the window.
[0020] Another object of the technology described herein is to
furnish a postal authority-compliant mail piece that includes a
mailing document size-inclusive envelope having an internal
information-protected cutout window, a document having associated
address information for a recipient contained within the windowed
envelope and a window patch printed with the address and unique ID
bar code information correlated with the document and adhered
inside the envelope over the window and visible through the window,
thereby protecting internal document information from viewing
through the window.
[0021] A further object of the technology described herein is to
supply means for producing patch material, means for producing
adhered patch envelopes, means for correlating address information
associated with the document with the address patch or envelope,
means for adhering an address patch to an envelope, means for
printing the address patch, and means for verifying the address
patch information matches the document's associated address
information.
[0022] Still another object of the technology described herein is
to disclose a mail piece assembly system for creating a postal
authority-compliant transactional mail piece that has a windowed
envelope with an internal adhered address patch that is visible
through the window and an internal document with an associated
address, comprising: a) means for producing window patch material
for adhering over the window inside the envelope; b) means for
producing the window-adhered address patch from the window patch
material; c) means for applying a unique serialized identifier to
either the envelope or the address patch; d) means for correlating
document address information with either the address window patch
or the envelope unique identifiers; e) means for inserting the
document into the envelope; f) means for printing the address patch
with the document's associated address and unique ID bar code
information; and g) means for verifying that the document's
associated address matches the printed patch or envelope
identifiers.
[0023] Disclosed is a mailing method, system, and mailing package
in which a printed transactional document(s) and optional mailable
items are enclosed in a mail item size-inclusive envelope that
gives the appearance of being a traditional windowed envelope in
which the send address shows through from the address vehicle page
inside, but actually has the address printed on an adhered patch
that shows through the window, keeping the data inside more secure
and allowing production processes to be more efficient, and the
patch or envelope has a serialized identifier that ensures the
address printed on the patch and seen in the window corresponds
with the document on the inside.
[0024] More specifically, disclosed is a postal authority-compliant
mail piece, comprising: a) a document size-inclusive mailing
envelope having a cutout window; b) a document comprising one or
more pages and having address information for a recipient contained
within the windowed envelope; and c) a window patch printed with
the address and unique ID bar code information associated with the
document and adhered inside the envelope over the window and
visible through the window, thereby protecting internal document
information from viewing through the window. Also, included is a
serialized barcode on the window patch to uniquely identify the
envelope. Further, included is a process that correlates the window
patch barcode with a unique identifier on the document.
Additionally, included is a process that ensures that the address
information on the document is printed on the window patch. Still
further, included is a process that ensures that the address
information printed on the window patch can be verified any time
after being produced without opening the envelope. Yet included
further is a process that ensures the verification without opening
the envelope occurs by matching the document identifier with the
window patch barcode to establish that they are correctly matched
with each other. Also, included is a barcode on the envelope to
uniquely identify the envelope, a process that matches the envelope
barcode with a unique identifier on the document, a process that
ensures that the address and unique ID bar code information
associated with the document is printed on the envelope, a process
that matches the envelope barcode with a unique identifier on the
document, and a process that ensures the verification without
opening the envelope occurs by matching the document identifier
with the envelope barcode to establish that they are correctly
matched with each other.
[0025] Additionally, disclosed is a method for mailing one or more
identically or variably sized mailable items within an internal
information-protected windowed size-inclusive send envelope. The
internal information-protected windowed and mail item
size-inclusive send envelope includes a cutout window and a window
patch printed with the mail recipient's address and unique ID bar
code information associated with an internal document and adhered
inside the envelope over the window and visible through the window,
thereby protecting internal information on the document from
viewing through the window. Also, included is a serialized barcode
on the window patch to uniquely identify the envelope. Further,
included is a process that correlates the window patch barcode with
a unique identifier on the document.
[0026] Also, disclosed is a mail piece assembly system for creating
a postal authority-compliant transactional mail piece that has a
windowed envelope with an internal adhered address patch that is
visible through the window and an internal document with an
associated address, comprising: a) means for producing window patch
material for adhering over the window inside the envelope; b) means
for producing the window-adhered address patch from the window
patch material; c) means for applying a unique identifier to either
the envelope or the address patch; d) means for correlating
associated document address information with either the address
window patch or the envelope unique identifiers; e) means for
inserting the document into the envelope; f) means for printing the
address patch with the address and unique ID bar code associated
with the document; and g) means for verifying that the document
address matches the printed patch or envelope identifiers.
[0027] Further aspects of the technology described herein will be
brought out in the following portions of the specification, wherein
the detailed description is for the purpose of fully disclosing
preferred embodiments of the technology without placing limitations
thereon.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)
[0028] The technology described herein will be more fully
understood by reference to the following drawings which are for
illustrative purposes only:
[0029] FIG. 1--PRIOR ART--This figure shows a typical example of an
"Address Vehicle Page" that is mailed within a standard window
envelope (with or without an inner adhered see-through/clear cover
patch) and that includes a unique ID bar code.
[0030] FIG. 2--PRIOR ART--Shows the problem of a shifting location
of an address region when multiple pages are folded for insertion
into an envelope.
[0031] FIG. 3--PRIOR ART--Shows the problem of a shifting location
of an address region when multiple types of folding systems are
utilized for folding documents for insertion into and envelope.
[0032] FIG. 4--PRIOR ART--Shows the outside of a traditional
windowed envelope with an interior document having an address
region including a unique ID bar code that shows through the window
(with or without an inner adhered see-through/clear cover
patch).
[0033] FIG. 5--PRIOR ART--Shows the inside of a traditional
windowed envelope, that has not yet been folded, in which an inner
see-through/clear cover patch in adhered to cover the window.
[0034] FIG. 6 shows the portion of a typical AVP that is utilized
in the subject invention to print on a subject window patch that is
adhered inside an envelope and is seen through the envelope's
window.
[0035] FIG. 7 shows a roll of pre-printed material that is produced
to serve as envelope window patches in the subject invention.
[0036] FIG. 8 shows an envelope that employs the subject invention
in which an addressed and serialized window patch is adhered to the
inside of a windowed envelope and shows through the window.
[0037] FIG. 9 shows an envelope that employs the subject invention
in which an addressed window patch is adhered to the inside of a
windowed and serialized envelope and shows through the window.
[0038] FIG. 10 show a folded set of document pages in which a
unique ID is included in the address region so that the window
patch address and the document address can be checked for proper
correlation.
[0039] FIG. 11 is a flow chart showing the production of subject
window patch material (see FIG. 7, above).
[0040] FIG. 12 is a flow chart showing the process for how a
subject window patch is adhered to the inside of a windowed
envelope.
[0041] FIG. 13A shows a flow chart dealing with the correlation and
insertion process of the subject invention.
[0042] FIG. 13B shows a flow chart dealing with the addressing and
verification process of the subject invention.
DETAILED DESCRIPTION
[0043] Referring more specifically to the drawings, for
illustrative purposes the subject technology is embodied in the
system generally shown in FIGS. 1 through 13B. It will be
appreciated that the subject system, method, and mailing package
may vary as to configuration and as to details of the components,
and that the method of assembly may vary as to the specific steps
and sequence, without departing from the basic concepts as
disclosed herein.
[0044] The subject invention solves existing problems in mailing
documents in a windowed envelope, yet still presents the recipient
with a mail piece that has the same look and feel of a traditional
windowed envelope with a pre-printed address form inside (see FIG.
4--PRIOR ART). As seen in FIG.4--PRIOR ART, the window W allows the
address A printed on the AVP to show through (with or without a
see-through/clear window material adhered to the inside of the
window).
[0045] Transactional mail documents such as bills, statements, and
the like are not only usually mailed inside windowed envelopes but
are also often printed on forms that bear distinctive insignia or
backgrounds (akin to watermarks or the equivalent). Service
providers usually consider such artwork to be an important means of
advertising their brand and typically have many years invested in
presenting such imagery in a consistent fashion through many
different channels so that customers recognize it instantly. Mail
piece recipients therefore often consider both the presence of the
windowed envelope and the artwork or insignia on the document
visible through the window in deciding that such mail piece is
indeed one that merits a higher level of attention.
[0046] The invention exploits this fact by replacing any
see-through/clear window material used in some traditional windowed
envelope manufacturing (see FIG. 5--PRIOR ART in its non-folded
form, inside surface) with forms bearing the exact same distinctive
insignia or background imagery that will be on the forms that
ultimately travel to the recipient inside the very same envelope.
As seen in FIG. 4--PRIOR ART, the traditional windowed envelope E
has fold lines F, a see-through/clear patch C, and a window W over
which the see-through/clear patch C is adhered.
[0047] In a real sense (as seen in FIG. 6), the invention produces
the same result as would an AVP, except that the only part of the
AVP information that goes into the final mailing package is the
address portion 10 matching the size and position of a
see-through/clear window covering, which saves weight and paper
costs.
[0048] Since such a window patch is not printed at the same time as
the document contained inside the envelope, the subject invention
saves not only paper but also high-demand printer capacity, which
is freed up for more valuable uses. Additionally, since the
windowed envelopes are fabricated with the open window at a
reproducible location for any particular envelope size, various
sized documents and optional inserts may be placed into the same
size-inclusive windowed envelope, thereby enabling one
size-inclusive windowed envelope, with particular physical
dimensions, to be utilized for many document and insert
combinations since the window patch will always be adhered in the
correct position. This permits a small set of size-inclusive
windowed envelopes, with particular physical dimensions, to be used
for a huge array of internal documents/inserts since each member of
the set will always have the window patch correctly placed within
the window.
[0049] Since service providers often use the same forms, artwork,
and imagery across a wide variety of document types, a single
version of such an apparently-open, but actually-closed window-type
envelope can serve to carry a wide variety of document types inside
and still be recognized by recipients just as effectively as if the
documents were sent inside traditional windowed envelopes.
[0050] The subject patch material (normally a paper or other
polymer product) produced to serve in place of the traditional
see-through/clear window covering would carry not only the service
provider's pre-printed artwork and insignia, but also a series of
small bar codes carrying an incrementing serial number that can
serve as a unique identifier for the envelope to which the material
will be attached.
[0051] As seen in FIG. 7, a roll of pre-printed patch material 15
has individual window patches 20, with any required background
printing, that will be cut along the dashed lines 25 to produce the
separated patches that are adhered inside each windowed envelope.
The serialized unique identifiers 30 (usually any barcode notation)
are seen on the right side of each patch 20, but may be printed in
any desired location on the patch that does not interfere with the
future addresses. The bar code symbols (unique identifiers 30),
each representing a unique serial number, are either spaced closely
together to ensure that one will always be visible through the
window in its entirety, if the envelope production process cannot
synchronize patch attachment, or spaced one per patch if the
envelope production process can synchronize patch attachment. This
ensures that each envelope will always bear a unique
machine-readable ID regardless of whether the material is or is not
vertically aligned with the envelope's window during the envelope
manufacturing process.
[0052] As seen in FIG. 8, the result is a send envelope with a
pre-printed address carrier window bearing a machine-readable
serial number on the attached patch that uniquely identifies the
envelope. No document information is visible through the envelope
window.
[0053] Alternately, as seen in FIG. 9, the envelopes themselves
could be manufactured without the unique ID appearing in the
window; but instead the unique ID (barcode 30) could be applied
directly to the envelope as it is drawn into an inserting machine.
This alternate process would have the advantage of leaving the
window area free for address information alone. Such ID application
could be done using a small ink-jet printer positioned where the
send envelopes are singulated exiting a receiving hopper.
[0054] At the inserting machine, when a particular document is
being loaded into a particular envelope, a computer controlling two
machine vision/imaging components records the unique identity of
the envelope and the unique identity of the document going inside
it (see FIG. 10 and the associated unique identifier 35, usually a
barcode or the equivalent) and then correlates the two, storing the
result in a database.
[0055] At the end of the inserting machine another machine
vision/imaging system controlled by the correlating computer reads
the unique ID visible through the envelope's window and, as long as
the now-sealed package is in all other respects ready for mailing,
looks up the send address in a database using the correlation
obtained earlier and prints the send address and an additional bar
coded ID directly onto the window material. The additional bar code
uniquely correlates the printed send address information with the
document inside. The send address is printed using technology that
is identical to or similar to the standard printing technology used
to print the envelope's contents that the result is not easily
distinguishable from a traditional windowed mail piece.
[0056] Those skilled in the relevant arts will recognize that
modern inserting machinery could, in theory, simply track the mail
piece from the point of insertion to the point of send address
application and print the corresponding address and bar code
without reading any unique ID from the envelope. However, it is
well known that machine stoppage and operator manual error recovery
events are extremely common in such situations. Since the matching
of the send address to the document inside is critically important
to both the mailer and the recipient a higher level of assurance is
necessary. The invention provides such assurance without the need
to open or peer inside the envelope. For example, if, instead, the
correlating computer, upon reading the unique serialized ID,
visible either on the envelope or through the envelope's window,
found that the package was not the one expected or for some reason
not ready for mailing, perhaps because of a processing error having
been detected earlier, the controlling computer would prevent the
correlating address from being printed on the window material, and
instead an error message such as "Processing Error DO NOT MAIL"
would be printed instead. Such a message would effectively prevent
the document from ever reaching any recipient, even if the mail
processor for whatever reason failed to stop its departure from the
mailing facility.
[0057] Additionally, after the address is applied to the window
patch, the invention provides that yet another machine
vision/imaging system can record the final image of the completed
mail piece's face, which would then include the serialized bar code
symbol, the printed address, and the unique correlation barcode
symbol, and verify all with the images recorded at the time the
document and the envelope first came together immediately prior to
the main inserting section of the machine. Such verification serves
as a check on the address printing component of the system.
[0058] Together the system of overlapping automated process quality
assurances prevents errors by any single component of the system
from allowing bad mail pieces to exit the mailing facility.
[0059] FIG. 11 illustrates an exemplary flow chart that describes
the process of producing the patch material for the subject
invention.
[0060] FIG. 12 illustrates an exemplary flow chart that describes
the process of producing the window-adhered address patch for the
subject invention.
[0061] FIG. 13A illustrates an exemplary flow chart that describes
the subject correlation and insertion process for the subject
invention.
[0062] FIG. 13B illustrates an exemplary flow chart that describes
the subject addressing and verification process for the subject
invention.
[0063] Additionally, the subject invention may comprise a postal
authority-compliant mail piece, wherein the window patch is printed
either before or after adherence to the inside of the envelope, as
desired by the mailing facility. Clearly, the flow diagram seen in
FIG. 13B is slightly altered (to eliminate the patch printing step)
in a situation in which the window patch is printed before
adherence.
[0064] Further, although the envelope-contained document is often a
bill, statement, or the like, additional informational material may
be contained in the envelope such as advertisements and the
like.
[0065] It is noted that the window patch or envelope may be printed
with messaging information that is additional to said address
information.
[0066] There are many advantages for the subject invention over the
existing system. The subject invention provides a means for a
number of efficiencies to be enjoyed by mailers while still
presenting recipients with the traditional look and feel of a
transactional mail piece in a windowed envelope, including, but not
limited to:
[0067] 1) It saves production cost and postage for additional sheet
(a.k.a. Address Vehicle Page);
[0068] 2) A single envelope size can suit a range of document sizes
since it does not matter if packages move around inside;
[0069] 3) It supports the personalization of each envelope because
printing technology can place images on the envelope as well as on
the window;
[0070] 4) It requires a personalization print path requirement of
only about 4.2 inches across the front of the envelope allowing
half-letter size print heads to handle any document;
[0071] 5) It supports increased job consolidation by removing
address and window placements as barriers;
[0072] 6) It supports electronic sorting of documents with
different send address locations to achieve higher postage
discounts;
[0073] 7) It adds little or no weight to mail piece compared to
see-through window envelopes;
[0074] 8) It saves unit envelope cost due to fewer envelope
variations and larger order quantities;
[0075] 9) Each envelope is more environmentally friendly because
each transparent plastic window covering is replaced with more
recyclable paper;
[0076] 10) More secure envelopes eliminate the possibility of PII
showing through the window; and
[0077] 11) It can free up valuable space on the document now used
by the sending address and window clear zones.
[0078] Disclosed embodiments of the subject invention include a
postal authority-compliant and document size-inclusive envelope for
containing one or more documents having address information and of
one or more pages, with each document of fixed or variable sizes,
in which document information is protected from
outside-the-envelope viewing, comprising: a) the document
size-inclusive mailing envelope having a cutout window and
dimensioned to accept one or more variably sized documents; b) an
opaque address window patch for printing address information
associated with the document that is mailed in the mailing
envelope, wherein the address widow patch is adhered inside the
mailing envelope over the window and visible through the window,
thereby protecting document information from view through said
cutout window; and c) a unique identifier printed on either the
address window patch or a front of the document size- inclusive
mailing envelope, wherein said unique identifier correlates with
the document address information.
[0079] Additionally, disclosed embodiments of the subject invention
include a postal authority-compliant mail piece, comprising: a) a
document size-inclusive mailing envelope having a cutout window,
wherein the envelope contains one of more documents of one or more
pages, with each document of fixed or variable sizes, in which
document information is protected from outside-the-envelope
viewing; b) a document having address information for a recipient
contained within the windowed envelope; and c) a window patch
printed with the address information obtained from the document and
adhered inside the envelope over the window and visible through the
window, thereby protecting information printed on the document form
viewing through the window.
[0080] An additional embodiment includes a barcode on the window
patch to uniquely identify the envelope.
[0081] Another embodiment includes a process that matches the
window patch barcode with a unique identifier on the document.
[0082] A further embodiment includes a process that ensures that
the address information on the document is printed on the window
patch.
[0083] Yet another embodiment includes a process that ensures that
the address information printed on the window patch can be verified
any time after being produced without opening the envelope.
[0084] Still another embodiment includes a process that ensures the
verification without opening the envelope occurs by matching the
document identifier with the window patch barcode to establish both
are the same.
[0085] An additional embodiment includes a barcode on the envelope
to uniquely identify the envelope.
[0086] Still an additional embodiment includes a process that
matches the envelope barcode with a unique identifier on the
document.
[0087] Yet still another embodiment includes a process that ensures
that the address information on the document is printed on the
envelope.
[0088] A further additional embodiment includes a process that
matches the envelope barcode with a unique identifier on the
document.
[0089] Still another further embodiment includes a process that
ensures the verification without opening the envelope occurs by
matching the associated unique ID printed at the same time as the
address with the serialized envelope barcode to establish that the
correct address was printed.
[0090] Another additional embodiment comprises the document or
documents being printed at a first time and the window patch
printed at a second time.
[0091] Another embodiment of the subject invention includes a mail
piece assembly system for creating a postal authority-compliant
transactional mail piece that has a document size-inclusive and
windowed envelope for containing one or more documents of one or
more pages, with each document of fixed of variable sizes, and
optional inserts, with an internal adhered address patch that is
visible through the window, thereby protecting information on the
document from viewing through the window, and the one or more
internal addressed documents, comprising: a) means for producing
window patch material for adhering over the window inside the
document size-inclusive envelope; b) means for producing the
window-adhered address patch from the window patch material; c)
means for applying a unique identifier to either the document
size-inclusive envelope or the address patch; d) means for
correlating document address information with either the address
window patch or the document size-inclusive envelope unique
identifiers; e) means for inserting the one or more documents into
the document size-inclusive envelope; f) means for printing the
address patch with the document address information; and g) means
for verifying that the document address information matches the
printed patch or document size-inclusive envelope identifiers.
[0092] Still yet another embodiment of the subject comprises a
method for creating a postal authority-compliant transactional mail
piece for mailing to a recipient at one address that contains one
or more single and multipage documents, with optional fliers, and
is contained within a windowed envelope The steps comprise: a)
selecting a windowed envelope that is sufficiently sized to contain
all of the one or more single and multipage documents, with
optional fliers, being mailed to one address; b) producing an
address window patch, printed with document address information,
for internal adherence over a window in the envelope so as to be
visible through the window, thereby protecting information on the
enclosed one or more documents from viewing through the window; c)
applying a unique identifier to either the windowed envelope or the
address window patch; d) adhering the address window patch over the
window inside the windowed envelope; e) inserting the one or more
single and multipage documents, with optional fliers, into the
windowed envelope; f) correlating the document address information
with either the windowed envelope or the address window patch
unique identifiers; and g) verifying that the document address
information matches the printed address window patch or windowed
envelope indentifiers.
[0093] Embodiments of the subject technology may be described with
reference to flowchart illustrations of methods and systems
according to embodiments of the technology, and/or algorithms,
formulae, or other computational depictions, which may also be
implemented as computer program products. In this regard, each
block or step of a flowchart, and combinations of blocks (and/or
steps) in a flowchart, algorithm, formula, or computational
depiction can be implemented by various means, such as hardware,
firmware, and/or software including one or more computer program
instructions embodied in computer-readable program code logic. As
will be appreciated, any such computer program instructions may be
loaded onto a computer, including without limitation a general
purpose computer or special purpose computer, or other programmable
processing apparatus to produce a machine, such that the computer
program instructions which execute on the computer or other
programmable processing apparatus create means for implementing the
functions specified in the block(s) of the flowchart(s).
[0094] Accordingly, blocks of the flowcharts, algorithms, formulae,
or computational depictions support combinations of means for
performing the specified functions, combinations of steps for
performing the specified functions, and computer program
instructions, such as embodied in computer-readable program code
logic means, for performing the specified functions. It will also
be understood that each block of the flowchart illustrations,
algorithms, formulae, or computational depictions and combinations
thereof described herein, can be implemented by special purpose
hardware-based computer systems which perform the specified
functions or steps, or combinations of special purpose hardware and
computer-readable program code logic means.
[0095] Furthermore, these computer program instructions, such as
embodied in computer-readable program code logic, may also be
stored in a computer-readable memory that can direct a computer or
other programmable processing apparatus to function in a particular
manner, such that the instructions stored in the computer-readable
memory produce an article of manufacture including instruction
means which implement the function specified in the block(s) of the
flowchart(s). The computer program instructions may also be loaded
onto a computer or other programmable processing apparatus to cause
a series of operational steps to be performed on the computer or
other programmable processing apparatus to produce a
computer-implemented process such that the instructions which
execute on the computer or other programmable processing apparatus
provide steps for implementing the functions specified in the
block(s) of the flowchart(s), algorithm(s), formula(e), or
computational depiction(s).
[0096] It will further be appreciated that the terms "programming"
or "program executable" as used herein refer to one or more
instructions that can be executed by a processor to perform a
function as described herein. The instructions can be embodied in
software, in firmware, or in a combination of software and
firmware. The instructions can be stored locally to the device in
non-transitory media, or can be stored remotely such as on a
server, or all or a portion of the instructions can be stored
locally and remotely. Instructions stored remotely can be
downloaded (pushed) to the device by user initiation, or
automatically based on one or more factors. It will further be
appreciated that as used herein, that the terms processor, computer
processor, central processing unit (CPU), and computer are used
synonymously to denote a device capable of executing the
instructions and communicating with input/output interfaces and/or
peripheral devices.
[0097] Although the description herein contains many details, these
should not be construed as limiting the scope of the disclosure but
as merely providing illustrations of some of the presently
preferred embodiments. Therefore, it will be appreciated that the
scope of the disclosure fully encompasses other embodiments which
may become obvious to those skilled in the art.
[0098] In the claims, reference to an element in the singular is
not intended to mean "one and only one" unless explicitly so
stated, but rather "one or more." All structural, chemical, and
functional equivalents to the elements of the disclosed embodiments
that are known to those of ordinary skill in the art are expressly
incorporated herein by reference and are intended to be encompassed
by the present claims. Furthermore, no element, component, or
method step in the present disclosure is intended to be dedicated
to the public regardless of whether the element, component, or
method step is explicitly recited in the claims. No claim element
herein is to be construed as a "means plus function" element unless
the element is expressly recited using the phrase "means for". No
claim element herein is to be construed as a "step plus function"
element unless the element is expressly recited using the phrase
"step for".
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