The present invention relates to equipment used in the processing of cut sheets of material (e.g. cut sheets of paper), and, more particularly, to a stacker for stacking cut sheets of material.
Stackers are used in the printing industry to collect a flat, linear feed of cut sheets of paper, e.g. that are being feed over belts in a shingled configuration (i.e., overlapping with a slight overhang between successive sheet). In order to efficient handle and ship the sheets at the end of the printing and cutting process, they must be collected from the linear feed and stacked on top of each other. Typically, the individual sheets are stacked into a particular number of sheets per stack (e.g., 100 sheets per bundle). A typical stacker has a set of in feed belts that feed 25 the linear sheets into the machine and second set of belts that creates a break in the feed of sheets through the machine. As the linear sheets are passed over the second set of belts speeds they speed up after the desired number of sheets has passed over the second belts. This speeding up of the second belts creates a gap in the feed of linear sheets. This gap can be used to separate the sheets in a stack so that the stack has the desired number of sheets. However, this speeding up of the second belts, without additional handling, can cause problems in the processing of the sheets because they may become unaligned.
The present invention addresses this and other issues.
A stacking system for stacking a plurality of sheets of material that are feed into the system in a linear feed is provided. The system includes a pulley that can move in the direction of a feed to create a gap in the feed. The system also includes a first set of blades that can move in a first direction and a second set of blades that can move in a second direction, wherein the first and second set of blade are interleaved in an extended position of the first set of blades and a up position of the second set of blades.
Referring to
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The sheets are then conveyed onto the stacking system 116. The sheets are conveyed off the belts of the conveyor system 114 and they are then vertically deposited onto a plurality of pusher blades 240. Referring to
The stacker is controlled by a computer that includes a processor and memory and software that is executed by the processor. The computer receives information from sensors that detected the number of sheets that have passed through the feed (and thereby actuate the gap system 112 to create a gap in the feed) as well as detect the formed gap and control the operation of the servos of the stacking system 118.
Accordingly, as the stacker 100 is run, a linear feed of shingled paper can be gapped by the gap system 112 and then stacked by the stacking system 116 in a repetitive fashion. The pulley 214 and nip 232 is shuttled back and forth on its slide to produce gaps at a set interface of sheets being thread through the system, and the pusher blades 240 and table blades 248 are repetitively moved to collect the stack of papers (defined as the number of sheets between successive gaps) and pusher then to the exit of the machine.
While the invention has been described in connection with a certain embodiment and variations thereof, the invention is not limited to the described embodiment and variations but rather is more broadly defined by the recitations in the claims below and equivalents thereof.
This application is a continuation of U.S. Non-Provisional application Ser. No. 13/573,360, filed Sep. 10, 2012, which claims the benefit of U.S. Provisional Application No. 61/533,177, filed Sep. 9, 2011, the entire contents of both which are hereby incorporated by reference in their respective entireties.
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Number | Date | Country | |
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20150210500 A1 | Jul 2015 | US |
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Number | Date | Country | |
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Parent | 13573360 | Sep 2012 | US |
Child | 14486519 | US |