Some scanners, multi-function printers and other types of sheet media processing machines are provided with media inlets and outlets on the same side of the machine to receive and discharge sheet media respectively. This may enable a user to conveniently feed sheet media into the machine and subsequently retrieve it after processing. In some examples, sheet media may comprise paper, cardboard, plastics or the like, which may be relatively flexible.
Examples will now be described, by way of non-limiting example, with reference to the accompanying drawings, in which:
The media inlet 102 and the media outlet 104 are disposed on the same first side 110 of the machine, which may enable a user to load sheet media for processing by the machine, and subsequently retrieve the sheet media in a convenient manner. For example, the first side 110 of the machine may be a front side of the machine. The media inlet 102 is disposed above the media outlet 104. Because the media inlet 102 and the media outlet 104 are located on the same first side 110 of the machine, there is an external recirculation path between the media outlet 104 and the media inlet 102 along which sheet media discharged from the media outlet 104 may curl towards the media inlet 102. In this example the feed direction extends towards the media inlet from the first side of the machine (from left to right in
In previously considered media processing machines in which a media inlet and media outlet are provided on the same side of the machine, a discharged portion of sheet media may curl towards the media inlet along such an external recirculation path, and may be drawn back in towards the media inlet by contact with a feed portion of sheet media, which may be a portion of the same piece of sheet media. This may result in recirculation of the discharged media, and consequently jamming of the machine that may damage the machine and/or the media (which may be a valuable original when the machine is a scanner or copier). Such recirculation may be more likely to occur when the sheet media is prone to curling, and may occur despite the presence of guards or deflectors extending from the machine between the media outlet and media inlet, particularly when the sheet media is relatively thick. Such guards or deflectors of previously considered machines may project significantly in front of a media inlet, and may have sharp edges.
In the example sheet media processing machine 100 of
In this example, the feed guide 112 is mounted to the first side 110 of the sheet media processing machine 100 so that an upper surface 116 of the feed guide terminates at the media inlet 102 to guide sheet media 114 directly into the media inlet 102. The feed guide 112 extends laterally away from the first side 110 of the media processing machine. Further, in this particular example the feed guide 112 is inclined downwardly away from the media inlet 102, such that its angle of inclination with respect to the horizontal in use may be similar to the angle of inclination of a feed portion of sheet media 114 overlying the feed guide 112 which drapes over the distal edge 118 of the feed guide 112, such as between 10 and 30 degrees below the horizontal.
In this particular example, the re-feed prevention element 108 comprises an elastomer overmolding on the distal end of the feed guide 112, and extends along the full width of the feed guide 112, which is substantially the same width as the media inlet 102 (
In other examples the re-feed prevention element 108 may not be provided on a feed guide, for example, the re-feed prevention element may be provided on a support extending from the sheet media processing machine which is not a feed guide, for example, a retractable or pivotable support extending from a recess located mid-way between the media inlet 102 and the media outlet 104.
Further, in other examples the re-feed prevention element 108 may be formed in any suitable way so that it is exposed to contact with sheet media. For example, the re-feed prevention element may be a discrete elastomeric element partially embedded in a feed guide or support to which it is coupled, for example, by way of protrusions that are received in recesses within the feed guide or support. Further, the re-feed prevention element may be a heat shrink tube located and formed around a support member, such as a bar, of a feed guide or support. Yet further, the re-feed prevention element may comprise an elastomeric coating on a feed guide or support to form an external surface of the feed guide or support.
The feed mechanism 106 extends from the media inlet 102 to the media outlet 104 and defines a media pathway 120 through the sheet media processing machine 100. In this example, the feed mechanism 106 comprises a plurality of pairs of feed rollers 122, including a pair of feed rollers 122 located adjacent the media inlet 102 and a pair of feed rollers 122 located part way along the media pathway 120. The feed mechanism 106 has guide walls 123 to guide the sheet media 114 along the media pathway 120, which has a C-shape through the machine 100.
In this example, the feed mechanism 106 defines a media pathway through the machine by which the sheet media is substantially turned over, such that a side of sheet media 114 that is face-up when it is received at the media inlet 102 is face-down when it is discharged from the media outlet 104. The feed mechanism 106 conveys the sheet media past processing units of the media processing machine, such as scanner units and/or printing units.
The sheet media processing machine 100 is suitable for receiving sheet media of different types, for example paper, cardboard, plastics or the like, which may be relatively flexible. Further, the sheet media processing machine 100 is suitable for receiving sheet media of different sizes and lengths, for example standard media sizes such as A4, A3, A2, A1 having corresponding standard lengths, and also long plots, which may have a length of 1-2 m or longer (around 40-80 inches).
In an example method of use of the sheet media processing machine 100, a user loads long plot sheet media 114 so that an end of the sheet media 114 is fed into the media inlet 102. The portion of sheet media 114 upstream of the media inlet is referred to as a feed portion of sheet media 114. The feed portion of sheet media 114 extends towards the media inlet so that it drapes over the re-feed prevention element 108 owing to gravity.
The feed mechanism 106 activates the feed rollers 122 to draw the sheet media 114 through the sheet media processing machine along the media pathway 120. A discharge portion of the long plot sheet media 114 is discharged from the media outlet 104 whilst a feed portion of the same piece of long plot sheet media 114 is still being fed towards the media inlet 102 and draped over the re-feed prevention element 108.
In this example, the sheet media 114 curls upwards upon discharge from the media outlet 104, for example, owing to heating along the media pathway or a pre-existing curl. Further, the sheet media 114 is sufficiently stiff that it does not fall away from the media inlet 102 when discharged. Accordingly, the end of the discharge portion of sheet media 114 is driven towards the feed portion of sheet media 114 and makes contact with the feed portion. Friction between the underside of the feed portion of sheet media 14 and the end of the discharge portion of sheet media 114 causes the end of the discharge portion to be drawn along with the feed portion towards the media inlet 102 and the re-feed prevention element 108. This causes the side of the discharge portion which was face-down at the media outlet 104 to curl around so that it contacts the underside of the feed portion of sheet media 114.
As the feed portion of sheet media 114 moves towards the media inlet 102 it rides (or slides) over the re-feed prevention element 108, and draws the discharge portion of sheet media towards the re-feed prevention element 108 so that the end of the discharge portion of sheet media abuts the re-feed prevention element 108.
Friction between the re-feed prevention element 108 and the discharge portion of sheet media 114 is greater than friction between the discharge portion and feed portion of sheet media 114. The friction force may be influenced by the combined weight of the discharge portion and the feed portion of sheet media that may be supported on the re-feed prevention element. Accordingly, as the feed mechanism 106 continues to draw the feed portion of sheet media 114 into the media inlet 102, the feed portion slides over the discharge portion in preference to the discharge portion sliding over the re-feed prevention element 108. Consequently, the discharge portion of sheet media 114 is arrested at the re-feed prevention element 108.
As the feed mechanism 106 continues to discharge sheet media 114 from the outlet, the discharge portion of sheet media 114 grows until its weight overcomes the curling effect, at which point the discharge portion falls downwardly away from the re-feed prevention element 108.
The re-feed prevention element 130 is provided on a support 132 extendable from the feed guide body 125. The support 132 is shown in a retracted configuration in
In this particular example, the feed guide body 125 is hollow and may be formed of extruded aluminium or steel having a hollow cross-section. The proximal ends of the parallel arms 134 extend through port covers 140 in the distal edge 118 of the feed guide body 125. The port covers 140 allow sliding movement of the support 132 relative the feed guide body 125 between the retracted and extended configurations along an extension direction parallel with the arms 134. The proximal ends of the arms 134 are provided with retaining elements within the hollow cross-section of the feed guide body 125 to inhibit inadvertently separating the support 132 from the feed guide body 125. The feed guide body 125 may be provided with internal detents to engage with corresponding formations on the support 132 (such as a groove) to locate the support 132 in the retracted and/or extended configurations. The detent or detents may be released by the application of a retracting or extending force (i.e. by pushing or pulling on the support 132). The retracting force to release the detent(s) and retract the support from the extended configuration may be greater than the force experienced by the re-feed prevention element and support owing to a discharge portion of sheet media abutting the re-feed prevention element.
The port covers 140 fit within corresponding slots machined in the feed guide body 125, and each may include a guide duct corresponding to the cross-section of the respective arm 134 to inhibit play (i.e. relative movement away from the extension direction) between the support 132 and the feed guide body 125.
In this example, the U-shape bar is a metal bar, for example stainless steel, and the re-feed prevention element 130 comprises a heat shrink elastomer tube formed on the bar (i.e. before the bar is assembled into the feed guide body 125). In this particular example, the tube is formed of silicone rubber. In other examples, the re-feed prevention element 130 may take other forms, for example it may be partially embedded in the support 132, or may be formed as a coating on the support 132.
As shown in
Further, in the example shown in
In other examples, a re-feed prevention element may be 10% or more, 20% or more, 30% or more of the width of a corresponding feed guide 124, and may be 100% or less, 75% or less or 50% or less than the width of a corresponding feed guide 124.
The feed guide 124 (including the support 132 and re-feed prevention element 130) can be installed on a sheet media processing machine 100 substantially as described above with respect to
In an example method of use, the feed guide 124 may be attached to a sheet media processing machine 100 as shown in
Sheet media 114 is provided to the media inlet 102 and drawn through the feed mechanism 106 as described above with respect to
The feed guide may have any combination of the features described above by reference to the feed guide 112 of
In a further example method, prior to installation of the feed guide in block 804, the sheet media processing machine may comprise a feed guide without a re-feed prevention element comprising an elastomer. Accordingly, the method may additionally comprise removing the pre-existing feed guide, before installing the feed guide including a re-feed prevention element comprising an elastomer.
In some examples, there may be a plurality of discrete re-feed prevention elements, for example, arranged side-by-side along a lateral axis.
Although examples have been described in which a retractable or extendable support and re-feed prevention element are extended to an extended configuration for use, the re-feed prevention element may be effective in arresting a discharge portion of sheet media and preventing recirculation in the retracted configuration and any position therebetween. Extension may help to avoid recirculation since a discharge portion of sheet media may be more prone to sagging or falling away from an inlet due to gravity.
Where a feed guide is provided, the feed guide body may be non-elastomeric, and/or may comprise a material selected so that friction between the feed guide body and sheet media is less than friction between two portions of sheet media, when the sheet media comprises paper or card. For example, the feed guide body may comprise aluminium, steel or a rigid plastics material.
While the method, apparatus and related aspects have been described with reference to certain examples, various modifications, changes, omissions, and substitutions can be made without departing from the spirit of the present disclosure. It is intended, therefore, that the method, apparatus and related aspects be limited only by the scope of the following claims and their equivalents. It should be noted that the above-mentioned examples illustrate rather than limit what is described herein, and alternative implementations may be designed without departing from the scope of the appended claims. Features described in relation to one example may be combined with features of another example. Features described in relation to one example may be combined with features of another example. In particular, a feed guide and re-feed prevention member may have any combination of the features of the feed guide and re-feed prevention members described with respect to
The word “comprising” does not exclude the presence of elements other than those listed in a claim, “a” or “an” does not exclude a plurality.
The features of any dependent claim may be combined with the features of any of the independent claims or other dependent claims.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2016/051265 | 1/21/2016 | WO | 00 |