None.
This invention relates to the compliance of separation strips in a media dam for separating adjacent sheets of media being fed from a stack of sheets so that only one sheet is fed to a process station. More specifically, the compliance of the separation strips is adjustable depending on, for example, the media weight.
One problem in feeding media from a stack of sheets of media is that the sheets may stick together and at least the next adjacent sheet may be fed at the same time. Accordingly, various separating means have been suggested for separating a top sheet of a stack of sheets of media from the next adjacent sheet when the feed is from the top of the stack of sheets of media.
It is known to separate a top sheet of a stack of sheets from the next adjacent sheet through using a dam, which is an element having an inclined surface in the path of the top sheet, as it is fed from the stack of sheets, so that its leading edge will strike the inclined surface of the dam.
The dam is inclined at an obtuse angle to the bottom surface of the tray and to the adjacent end of the stack of the sheets. The dam is a portion of a surface against which each of the sheets in the stack is advanced into engagement. The sheets are advanced towards a processing station (not shown) at which printing occurs.
Each of the sheets is advanced from the stack by a pick mechanism, or similar mechanism known to persons of ordinary skill in the art.
With reference to the Figures, the separation strips, are preferably a thermoplastic polyurethane elastomer such as Pellethane®. While the Pellethane® separation strips of the present invention have been shown and described as being used with a printer, it should be understood that the separation strips of the present invention may be used with any apparatus feeding a sheet from a media stack to a processing station, for example, in which only one sheet at a time is to be fed from the stack to the processing station.
In a printer, for example, the advancement of more than one sheet from the stack of sheets can cause jamming. Therefore, it is necessary to avoid simultaneously advancing more than one sheet from a stack of sheets of media to a processing station such as a printer.
This invention focuses on devices with variably compliant separation strips, preferably a thermoplastic polyurethane elastomer such as Pellethane®, that are part of the dam, so that the leading edge of a media sheet will strike the inclined surface of the Pellathane® strip. The terms “strips” and “separation strips” are intended to have the same meaning. References to “Pellethane® strips” or “Pellethane® separation strips” are intended to have the same meaning, and refer to strips composed of Pellethane®.
The compliant Pellethane® separation strips work well for separating most media, such as bond paper. There are, however, examples where the compliant Pellethane® strips are not ideal, such as for heavy card stock. There are at least two ways that paper weight is measured. The United States measures paper weight in pounds (for a given number of sheets), whereas it is standard to measure in grams per square meter outside of the United States. Persons of ordinary skill in the art understand that bond paper, also known as writing paper, is commonly used for printer paper or copier paper, and is characterized as weighing typically between about 16 and 36 pounds. Further, persons of ordinary skill in the art understand that heavier media, such as card stock, are thick and stiff, typically weighs between 60 to 120 pounds, and are frequently used for business cards, door hangers, menus, invitations, postcards, etc.
When heavier media, such as card stock, is used, the compliant Pellethane® strips allow more frequent multi-feeds. “Multi-feed” is the term used when two or more pages are picked during a single pick operation. Less-compliant or non-compliant Pellethane® strips on the dam prevents multi-feeds for heavier media.
In devices with compliant Pellethane® strips, each Pellethane® strips is spring loaded such that the spring compresses to allow the Pellathane® strip to flex in response to the leading edge of the media applying a force to the outermost surface during the pick operation. The page moves forward continuously due to the pick drive system, which moves the leading edge of the paper up the strip. As the leading edge translates up the strips, the load is removed and strips return to the original position.
The non-compliant (rigid) or less-compliant system prevents the media from building a bubble between the pick mechanism and the leading edge of the media while the media is in contact with the Pellethane® strip. Energy is increased at the leading edge of the media (i.e., less paper buckle). The increased energy allows multiple pages to separate from each other. The top page is then driven forward, while the pages below are retained by the leading edge bumping against the Pellethane® strip.
The compliant Pellethane® strips allow a bubble to build before enough force is developed to move the paper up the Pellethane® strip by allowing additional distance via Pellethane® movement due to spring compression, for example. That is, less energy at the paper leading edge and Pellethane® outermost surface interface.
The invention converts the compliant Pellethane® strip to a less-compliant or non-compliant (rigid) system. The invention may either vary the spring force, or completely remove the spring force all together. The system may be converted by simply adding an interference element, such as a wedge, on the back side of the Pellethane® strip housing to prevent the pellethane strips from moving when under load by the media.
Other objects of this invention will be readily perceived from the following description, claims, and drawings.
The attached drawings illustrate preferred embodiments of the invention, in which:
Referring to the drawings, and particularly to
In a first embodiment, a non-compliant blade 301, or other wedge element, is inserted, see
In a second embodiment, the user may operate a wheel-type cam system, or other device, to move a wedge element into position to lessen or eliminate the compliance of the separator strip elements. Pre-set positions may be selected depending on the particular weight of the media in use.
In the previous embodiments, the compliance of the separator strips is controlled by limiting the travel distance of an element of the separator strip, e.g., 311B, shown in
In a third embodiment shown in
For purposes of exemplification, particular embodiments of the invention have been shown and described according to the best present understanding thereof. However, it will be apparent that various changes and modifications in the arrangement and construction of the parts thereof may be made without departing from the spirit and scope of the invention as defined in the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
5895040 | Oleksa | Apr 1999 | A |
6880821 | Park | Apr 2005 | B2 |
8083222 | Nakano | Dec 2011 | B2 |
8807556 | Sugiyama | Aug 2014 | B2 |
20140151954 | Furusawa | Jun 2014 | A1 |
Number | Date | Country | |
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20200399082 A1 | Dec 2020 | US |