Sheet feeding or delivering – Feeding – Pack holders
Reexamination Certificate
1999-12-21
2001-04-17
Bollinger, David H. (Department: 3651)
Sheet feeding or delivering
Feeding
Pack holders
C271S153000
Reexamination Certificate
active
06217020
ABSTRACT:
FIELD OF THE INVENTION
The invention disclosed herein relates generally to an apparatus for feeding and separation of mixed mailpieces and, more particularly, to an apparatus and method for detecting and providing proper position of a stack of mail pieces.
BACKGROUND
The processing and handling of mailpieces consumes an enormous amount of human and financial resources, particularly if the processing of the mailpieces is done manually. The processing and handling of mailpieces not only takes place at the Postal Service, but also occurs at each and every business or other site where communication via the mail delivery system is utilized. That is, various pieces of mail generated by a plurality of departments and individuals within a company need to be collected, sorted, addressed, and franked as part of the outgoing mail process. Additionally, incoming mail needs to be collected and sorted efficiently to ensure that it gets to the addressee in a minimal amount of time. Since much of the documentation and information being conveyed through the mail system are critical in nature relative to the success of a business, it is imperative that the processing and handling of both the incoming and outgoing mailpieces be done efficiently and reliably so as not to negatively impact the functioning of the business.
In view of the above, various automated mail handling machines have been developed for processing mail (removing individual pieces of mail from a stack and performing subsequent actions on each individual piece of mail). However, in order for these automatic mail handling machines to be effective, they must process and handle “mixed mail.” The term “mixed mail” is used herein to mean sets of intermixed mailpieces of varying size, thickness, and weight. In addition, the term “mixed mail” also includes stepped mail (i.e. an envelope containing therein an insert which is smaller than the envelope to create a step in the envelope), tabbed and untabbed mail products, and mailpieces made from different substrates. Thus, the range of types and sizes of mailpieces which must be processed is extremely broad and often requires tradeoffs to be made in the design of mixed mail feeding devices in order to permit effective and reliable processing of a wide variety of mixed mailpieces.
In known mixed mail handling machines which separate and transport individual pieces of mail away from a stack of mixed mail, the stack of “mixed mail” is first loaded onto some type of conveying system for subsequent sorting into individual pieces. The stack of mixed mail is moved as a stack by an external force to, for example, a shingling device. The shingling device applies a force to the lead mailpiece in the stack to initiate the separation of the lead mailpiece from the rest of the stack by shingling it slightly relative to the stack. The shingled mailpieces are then transported downstream to, for example, a separating device which completes the separation of the lead mailpiece from the stack so that individual pieces of mail are transported further downstream for subsequent processing. In the mailing machine described immediately above, the various forces acting on the mailpieces in moving the stack (shingling the mailpieces, separating the mailpieces and moving the individual mailpieces downstream) often act in a counterproductive manner relative to each other. For example, inter-document stack forces exist between each of the mailpieces that are in contact with each other in the stack. The inter-document stack forces are created primarily by the weight of the stack and additionally by the stack advance mechanism, the frictional forces between the documents, and potentially electrostatic forces that may exist between the documents. The inter-document forces tend to oppose the force required to shear the lead mailpiece from the stack. Additionally, the interaction of the force used to drive the shingled stack toward the separator and the forces at the separator can potentially cause a thin mailpiece to be damaged by being buckled as it enters the separator. Furthermore, in a conventional separator, there are retard belts and feeder belts that are used to separate the mailpiece from the shingled stack. Both the forces applied by the retard belts and the feeder belts must be sufficient to overcome the inter-document forces previously discussed. However, the force of the retard belts cannot be greater than the force of the feeder belts, or the mailpieces will not be effectively separated and fed downstream to another mail processing device. Moreover, if the feeding force being applied to the mailpieces for presenting them to the separator is too great, another potential problem which may occur is that a plurality of mailpieces will be forced through the separator without the successful separation of the mailpieces.
Another condition that affects the feeding of mailpieces is vertical orientation of the stack of mixed mail. The preferred orientation in which the most successful feeding occurs is when mail is leaning slightly against a paddle of the stack feeding device. When the mail is in this orientation, stack forces created by the weight of the mail are very low, and the mail is more easily separated and aligned for feeding downstream into, for example, a separating device. The high stack forces are created by improperly loaded mail stacks or mail stacks that have shifted creating improper lean. The shifting can be caused by the inertia of the stack as it a incrementally advances to the shingling device. The high forces of the stack may also cause damage to mailpieces as they are fed out of the stack and can cause greater wear on the nudger or feed rollers. The high stack forces can also cause multi-feeds. Additionally, improper alignment of leaning mail along the feed path to the separating device can cause the mail to stub as it enters the separating device and may also cause the mail to skew.
Thus, one of the problems of the prior art is that there can be failure to feed the mailpieces. Another problem of the prior art is that there can be poor separation of mail. Another problem of the prior art is that mail can be damaged by stubbing. Still another problem of the prior art is that multifeeds can occur when feeding mail. Yet another problem of the prior art is that stack forces can cause increased wear on feed rollers.
SUMMARY OF THE INVENTION
This invention overcomes the disadvantages of the prior art by providing a method and apparatus for detecting and providing proper mailpiece position when feeding mixed mailpieces. This in turn affords better mailpiece processing. The present invention is directed, in a general aspect, to a nudger for a mixed mail feeder and, in particular, to an apparatus and method of providing and detecting proper position in a stack of mixed mail. The apparatus generally comprises a nudger arm for detecting proper positioning of the mailpiece and a lean detection arm for detecting proper lean of the mailpiece with respect to the nudger. The apparatus helps to correct mailpiece lean which can cause the mailpiece not to feed. The method comprises, generally, a determination that when both the lean detection arm and the nudger arm are in a position indicating that the lead mailpiece is in the proper position, the stack of mixed mail is decelerated and fed to, for example, a separator, for further processing. The deceleration is performed at a slow rate and provides for a predetermined amount of over travel by the stack of mixed mail. This ensures proper contact of the lead mailpiece with the nudger rollers for feeding the mailpieces for further processing. The nudger rollers continue to feed the lead mailpieces until one or both of the lean detection arm and the nudger arm move out of the position(s) for proper mailpiece feeding, or a leading edge of the mailpiece blocks a downstream sensor.
Thus, an advantage of the present invention is that there is less failure to feed the mailpieces. Another advantage of the present invention is that consistent proper positioning of mailpie
Belec Eric A.
Jacobson Gary S.
Kayser David E.
Mulroy Martin
Porco Francesco
Bollinger David H.
Melton Michael E.
Meyer Robert E.
Pitney Bowes Inc.
Vitale Alberta A.
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