Print presses are often used to print relatively high volume runs of print runs. Increasingly digital print presses are used for such tasks (replacing for example offset print presses). In order to optimize the cost of prints from print presses in commercial use it is desirable to minimize downtime and increase the utilization of the press.
Depending upon the application print presses can be arranged to utilize print media which is either in a web-feed format or in a sheet-feed format. Presses for sheet-fed media may include a stacker arranged inline with the press to receive print output and accumulate a stack of printed media. Once a stack is completed it is removed from the printer to allow subsequent printing to continue.
Various features of the present disclosure will be apparent from the detailed description which follows, taken in conjunction with the accompanying drawings, which together illustrate features of the present disclosure, and wherein:
An apparatus is shown in
The apparatus may further include an actuator 40 to move the first 44 and second 46 pallet supports. As will be explained further below, the movement of the pallet supports 44, 46 may transfer a first pallet 60 away from the first pallet location 22 and a second pallet 70 from the second pallet holding location 24 to the first pallet location 22. The first pallet 60 may, for example be moved away from the first pallet location 22 to a location external to the print press 1 for ease of removal of the completed print output.
The first pallet support 44 may be movable between the first pallet location 22 and the exterior of the print press 1. The second pallet support 46 may be movable between the first pallet location 22 and the second pallet location 24. In such an arrangement the pallet supports can effectively provide a dedicated loaded pallet support (the first pallet support 44) and empty pallet support (the second pallet support 46).
The movement of the first 44 and second 46 pallet supports may be concurrent. For example, the movement may be synchronized and/or may be simultaneous. As the apparatus of this disclosure both removes a completed pallet (which it will be appreciated may be a full pallet or a partially full pallet depending upon the point in a print run) and positions a new pallet it may be possible to reduce the time period for which the print press is paused.
Examples of the present disclosure can increase utilization of the printing press 1 by reducing the time for which the press might be paused during any pallet change over. In existing print presses the change over of pallets may, for example, involve the press output being paused for one to two minutes whist an operator removes a full pallet from the output position of the press and subsequently positions a new empty pallet in the output position. This may for example need to be repeated between 1 to 3 times per hour. As such this may represent significant total press downtime (for example as much as 15%) and may for example be further impacted dependent upon availability of the press operator (who may have other tasks such as consumables replacement & paper loading to attend to). In examples based upon the present disclosure the operator may ensure that a pallet is in the pre-use pallet holding location whilst the press is in use and any pause in the press output may merely correspond to the short time period during which the apparatus of an example is physically switching the pallet locations. Once the full pallet is moved away from the output position the operator may remove the pallet at a convenient time whilst the press has resumed output to the second pallet (which will then be in the output location).
The configuration of an apparatus suitable for implementing this disclosure is best seen in
The actuator 40 can provide relative linear movement between the chassis 42 and the frame 50 as indicated by arrow A in
The chassis 42 carries both the first pallet support 44, which in this example may be considered the “loaded pallet support” and the second pallet support 46, which in this example may be considered the “empty pallet support”. The pallet supports 44, 46 may be in the form of a pair of support beams. The support beams 44 and 46 may be spaced apart in the direction transverse to the linear movement direction of the actuator. It may be noted that in the example, the support beams 44 and 46 have different widths. One support beam pair may have an outer width which is less than the inner spacing of the other support beam pair. Such an arrangement may provide support beams 44 and 46 which are at least partially nestable in the linear movement direction. In the example, the empty pallet support 46 is narrower than the loaded pallet support 44 and may therefore nest or overlap with the loaded pallet support 44 in the linear movement direction. At least one of the pallet supports 44, 46 may be provided with a linearly movable connection to the chassis 42. For example, an adjustor 45 may be provided for positioning the pallet support (in this example the empty pallet support 46) relative to the chassis 42. Thus, the relative positions of the pallet supports 44 and 46 may be adjustable.
In the example of
The actuator 40 may also include a lifting mechanism 49 (in
The operating sequence of the apparatus 40 will be described with particular reference to
As the first pallet 60 reaches a completed state (which could either be due to the pallet being full or the intended quantity of print output having been accumulated) the actuator 40 of the apparatus may be activated to extend the chassis 42 in the linear direction. Thus, the chassis 42 extends or moves so as to underly both the output location 22 and the pre-use location 24. In this position the first pallet support 44 is aligned with the first pallet 60 and the second pallet support 46 is aligned with the second pallet 70. Once the pallet supports are in position the print output from the print press 1 may be paused.
The actuator 42 can subsequently be raised, as shown in
At this stage output from the print press 1 may resume and can be accumulated on the new pallet 70. The actuator may then retract back towards the print press 1. As the lifting mechanism 49 is lowered the retraction of the chassis 42 will leave the full pallet 60 outside of the print press 1 (from where it may be removed without interruption to the print process) and the new pallet in the output position 22. A further pallet may then be introduced into the apparatus in the pre-use location 24 ready for the process to be repeated. To aid loading of the buffer pallet without interruption to the print process a door 58 may be provided alongside the pre-use location 24. For example, the door 58 may be positioned to allow a pallet to be side-loaded relative to the print press 1, for example being slid into position in a direction transverse to the movement axis of the actuator 40.
Although the example above uses the first pallet support 44 as a “loaded pallet support” and the second pallet support 46 as an “empty pallet support”, other arrangements may be used in other implementations. For example, one pallet support could remain with a pallet throughout the process. For example, the same pallet support could move the pallet first from the pre-use location to the output location and then subsequently move the same pallet from the output location to the exterior of the press. In such a configuration the second pallet support could move from the external location to the pre-use location as the first support moved from the in-use position to the external location.
Examples of the disclosure may further include methods of operating a print press as illustrated in the example flow chart 100 of
The output position can be associated with an elevator of a print press stacker. The method may include the stacking sheet print output on the first pallet in block 110. Sheet print output may be stacked on the second pallet in block 125.
When the output is accumulated on the second pallet in block 125, a further pallet may be provided in the buffer position when the second pallet is in the output position.
The preceding description has been presented to illustrate and describe examples of the principles described. This description is not intended to be exhaustive or to limit these principles to any precise form disclosed. Many modifications and variations are possible in light of the above teaching. It is to be understood that any feature described in relation to any one example may be used alone, or in combination with other features described, and may also be used in combination with any features of any other of the examples, or any combination of any other of the examples.
Filing Document | Filing Date | Country | Kind |
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PCT/US2019/043705 | 7/26/2019 | WO | 00 |