This application is related to U.S. patent application Ser. No. 12/431,949 filed Apr. 29, 2009.
Not Applicable
Sheet stacking tray assemblies are known in the art and described in, for example, U.S. Pat. No. 6,302,390 to Clark et al. Conventional sheet stacking tray assemblies include a lead edge that is a continuous surface against which a stack of paper is registered.
Conventional sheet stacking tray assemblies also typically include a pivotal elevate plate. A clearance usually exists between an elevate plate edge and the lead edge to allow for free movement of the elevate plate. However, this clearance tends to increase as the elevate plate is raised and sheets are fed from the top of the stack. When the last few pages of the stack are fed, it is common for one or more sheets to become trapped in the gap between the elevate plate and the lead edge of the tray. The trapped sheets may become damaged as the elevate plate descends to its original position. Trapped and/or damaged sheets are difficult to feed into the paper path and can cause paper jams. Paper jams, in turn, can frustrate customers and can reduce the overall feeding quality and capabilities of the machine.
Before the present methods are described, it is to be understood that this invention is not limited to the particular systems, methodologies or protocols described, as these may vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to limit the scope of the present disclosure which will be limited only by the appended claims.
It must be noted that as used herein and in the appended claims, the singular forms “a,” “an,” and “the” include plural reference unless the context clearly dictates otherwise. Unless defined otherwise, all technical and scientific terms used herein have the same meanings as commonly understood by one of ordinary skill in the art. As used herein, the term “comprising” means “including, but not limited to.”
In an embodiment, a sheet stacking tray assembly may include a tray having a lead surface and an elevate plate. The lead surface may include one or more first geometric protuberances. At least one edge of the elevate plate may include one or more second geometric protuberances that are complimentary to the first geometric protuberances. The lead surface may be configured to interlock with the edge of the elevate plate to form a support area for one or more sheets.
In an embodiment, a sheet stacking tray assembly may include a tray having a lead surface and an elevate plate. The lead surface may include one or more first geometric protuberances that extend from a first end of the lead surface to a second end of the lead surface. At least one edge of the elevate plate may include one or more second geometric protuberances that extend from a first end of the edge to a second end of the edge. The second geometric protuberances may be complimentary to the first protuberances. The lead surface may be configured to interlock with the edge to form a support area for one or more sheets.
Aspects, features, benefits and advantages of the present invention will be apparent with regard to the following description and accompanying drawings, of which:
For purposes of the discussion below, a “resource” refers to a printer, a copier, a multifunction machine or system, a xerographic machine or system, or any other type of reproduction or printing apparatus that is capable of printing images on at least a portion of a sheet.
A “sheet” refers to a physical sheet of paper, plastic and/or other suitable substrate for printing images thereon.
A “sheet stack” refers to a plurality of sheets arranged vertically.
In an embodiment, a sheet stacking tray assembly 100 may comprise a tray 105 and an elevate plate 110. The elevate plate 110 may be located within the tray 105 as illustrated in
In an embodiment, the elevate plate 110 may pivot about a fastening element. The fastening element may connect the elevate plate 110 to the tray 105. In an embodiment, the fastening element may include a hinge, a screw and/or the like.
In an embodiment, when the tray assembly 100 is removed from a resource for loading, the elevate plate may descend until it comes into contact with a bottom portion of the tray 105. In an embodiment, as shown in
After sheets are loaded in the tray assembly 100 and the tray assembly is returned to the resource, a sensor may be activated. In an embodiment, the sensor may transmit one or more instructions indicating that a sheet stack is available. In an embodiment, the elevate plate may be elevated. For example, as sheets from the sheet stack 115 are fed from the tray 105, the elevate plate 110 may upwardly pivot to engage the top sheet of the sheet stack 115 with a sheet feeder. As illustrated by
In an embodiment, the elevate plate 110 may raise and descend while remaining substantially parallel to the bottom of the tray 105. For example, the elevate plate 110 may not pivot to engage a lead surface 120, but rather may raise until the elevate plate is substantially level with a top portion of a lead surface as illustrated by
In an embodiment, the elevate plate 110 may raise until a feed sensor is triggered. In an embodiment, a feed sensor may transmit one or more instructions that one or more sheets are ready to be fed. When a sufficient number of sheets have been fed from the elevate plate 110, the feed sensor may be deactivated. In an embodiment, the elevate plate 110 may be raised until the feed sensor is re-triggered.
In an embodiment, a lead surface 120 may be a surface of the tray 105 that is located between a feeder and the elevate plate 110. The lead surface 120 may facilitate the movement of the top sheet of the sheet stack 115 from the elevate plate 110 to the feeder. In an embodiment, the lead surface 120 may have one or more geometric protuberances 125a-N. The protuberances 125a-N may be square, triangular, circular and/or the like. For example, the lead surface 120 may have a castellated configuration as illustrated by
In an embodiment, the protuberances 125a-N may extend from a first end 130 of the lead surface 120 to a second end 135 of the lead surface as illustrated by
In an embodiment, one or more edges of the elevate plate 110 may include one or more geometric proturbances 155a-N and/or the like. In an embodiment, the protuberances 155a-N may extend from a first end 160 of the elevate plate edge to a second end 165 of the elevate plate edge as illustrated by
Alternatively, the elevate plate 110 and lead surface 120 may interlink as the elevate plate approaches the top of the lead surface. For example, the elevate plate 110 and lead surface 120 may interlink when the elevate plate reaches a defined height.
In an embodiment, the interlink feature may support the corners of the stack 115 as the last few sheets are fed from the loaded position on the elevate plate 110 to the tray exit ramp and into the feeder. As such, the top sheet of the stack 115 may be fed into the paper path without becoming trapped in the clearance between the tray 105 and the elevate plate 110. As illustrated by
In an embodiment, the height of the protuberances 125a-N may be substantially equal to a maximum fill level of the sheet stacking tray assembly 100 as illustrated by
It will be appreciated that various of the above-disclosed and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Also that various presently unforeseen or unanticipated alternatives, modifications, variations or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the following claims.
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Number | Date | Country |
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2259499 | Mar 1993 | GB |
Number | Date | Country | |
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20100276869 A1 | Nov 2010 | US |