The present invention relates to a device which makes it possible to detect the presence and the position of a ream of paper sheets, in particular sheets of securities or banknotes, on pallets. The present invention also relates to a method for such a detecting operation.
A problem which is frequently encountered in the production of printed sheets is the precise positioning of the sheet stacks on the pallets. This is because, in the case of a process for printing paper sheets, for example for securities or banknotes, sheet stacks are often transported on pallets from one machine to the other in order to run through the various steps of the process. It is thus the case that a sheet stack is fed to a given machine on a pallet and transferred into the inlet of the machine, the sheets ale introduced individually into the machine, in order for it to be possible for the machine to carry out its process step, for example printing, numbering or the like, and the sheet stack is reinstated on a pallet at the outlet of the machine.
In the case of an industrial production process, it is, of course, the case that, rather than just a single pallet being fed to the inlet of a machine, a continuous flow of pallets and sheet stacks is guided to and from each machine.
While the formation of sheet stacks at the outlet of a machine is straightforward, each sheet which has been processed by the machine passing out individually, it is more complicated for sheet stacks to be transferred from pallets to the inlet of the machine.
The sheets stacked up in a pallet have to be reliably transferred from the pallet to the feed table of the machine. This transfer operation call take place in various various for example, the pallet can be arranged on a feed table, on which the pallet is located in a known reference position of a transfer system; the transfer system, which comprises in particular a suitable gripper system for gripping the sheet stack, can be fed; a crosspiece can be lowered, in order for the pallet to be connected to the feed table of the machine, and the stack can be conveyed from the pallet to the feed table.
At this stage, it has appeared necessary to carry out sensing of the presence and of the position of the sheet stack on the pallet. This is because, if there is no sheet located on the pallet, it is necessary to avoid the above-described transfer process and to change the pallet instead and, if the sheet stack is positioned incorrectly on the pallet, for example if it is located too close to the border of the pallet on which the crosspiece is supported or if it is oriented obliquely, it may obstruct the movement of the crosspiece, which will then result in machine blockage and renders the intervention of an operator necessary. In the case of an industrial production process, such time losses are not acceptable and have to be reduced to a minimum.
Nevertheless, precise and reliable detection of the presence and/or of the position of a sheet stack on a pallet raises numerous problems.
A first problem is that it may be the case that the sheet stacks are supplied on pallets made of different material. It is thus possible for stacked sheets to be received on pallets made of metal, for example of steel, which have a reflective surface, or on pallets made of plastic, which have a matt surface. The sensing system thus has to be capable of sensing the presence of sheets or sheet stacks irrespective of the type of pallet used, each type of pallet, for this reason, having a different reflection coefficient.
A second problem is that sheets printed in different colors may affect the performance of the sensing system used: since the different colors have a different reflection behavior, it is possible that the sensing system may not be able to sense the presence of sheets on a given pallet.
Finally, where securities or banknotes are concerned, holograms are often used as a security element. A hologram, however, likewise appears to affect the performance of the sensing system. On account of the particular reflection behavior of a hologram, it may be the case that the sensor used does not sense the presence of sheets, to be precise in particular if the sensing operation takes place at the location where the hologram is situated. It is difficult, or even impossible, for the sensor to be reliably adjusted for definite sensing.
The object of the invention is thus to develop a device and a method which are reliable and are not influenced by external parameters, for example the material of the pallets, the color of the print or the presence of security elements, for example holograms or the like, on imprints.
This object is achieved by the device and the method defined in the claims.
Since the optical sensors emit a light beam which is inclined in relation to the surface of the pallet and are displaced by a certain distance, it is possible to avoid the problems caused by the material of the pallets and the colors used for printing.
The invention has numerous advantages, and it may be mentioned, in particular, that the apparatus is easy to produce and reliable to use.
The invention may be better understood by way of the description of in embodiment thereof and the figures relating thereto.
The apparatus will be described first of all with reference to
This figure illustrates a sheet stack 1 on a pallet 2, the pallet 2 being arranged on an aligning table 3. Provided above the stack 1 is a frame 4, which can be lowered and raised again above the stack. This frame 4 supports, in particular, a gripper system 5, which can move the pallets, and a detecting system. The detecting system comprises two optical sensors 7 and 8, which are fastened on the supports 9 and 10. The Supports 9 and 10, in turn, are fastened on the frame 4 by means of compressed-air cylinders 11 and 12 (see
In the situation illustrated in
In exactly the same way as it is detected whether the sheet stack 1 has been displaced on the pallet, it is also possible, by means of the present invention, to establish whether one or more sheets of the stack 1 project and may possibly obstruct the positioning of the crosspiece 15.
It is, of course, necessary for the above-described apparatuses to be assigned to position sensors, in particular for the compressed-air cylinders 11 and 12, and to a central electronic-management unit, which makes it possible to analyze the data received from the optical sensors, to track the movement of said sensors between their reference positions (the starting position and the end position) and to produce a suitable control signal in dependence on the detection which has taken place, for example an error signal it the stack 1 is positioned incorrectly and a control signal for continuing the process (for example lowering the crosspiece 15) if the stack 1 is located in an acceptable position. This list of control signals is obviously not exhaustive and depends on the apparatus in question. It would also be possible, for example, to use the gripper system 5 for correcting the position of the stack 1 if the latter is located too close to the border of the pallet 2. For this purpose, the signals produced by the optical sensors can be used in order to calculate the displacement necessary for correction purposes, and the sensors can then confirm the correction which has been carried out.
Different types of apparatuses may be assigned to end stops in order to sense the arrival of the sensors, for example proximity sensors or the like.
The method according to the invention is illustrated in the block diagram according to
The inclination of the light beams in relation to the surface of the sheets is preferably 40°. Slight deviations from this value are, of course, possible.
Furthermore, the example described contains two sensors in order for it likewise to be possible to sense a sheet stack which is oriented obliquely on the pallet.
Furthermore, the length of the path over which the sensors are displaced depends on the imprints located on the sheets. In particular, as has been seen above, it is necessary, if the imprints contain a hologram and if the light beam comes into contact with the hologram, to cover a path % which is of a greater dimension in the displacement direction than the hologram, in order to move past the latter and to carry out the detection operation over a part of the sheet which does not contain any hologram. This path could thus be shorter if the sheets do not contain any hologram, and time could thus be saved during this step.
Of course, other modifications are also possible within the scope of the invention.
Although illustrative embodiments of the invention have been shown and described, a wide range of modification, change and substitution is contemplated in the foregoing disclosure and in some instances, some features of the present invention may be employed without a corresponding use of the other features. Accordingly, it is appropriate that the appended claims be construed broadly and in a manner consistent with the scope of the invention.
Number | Date | Country | Kind |
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0151/00 | Jan 2000 | CH | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CH01/00052 | 1/24/2001 | WO | 00 | 1/17/2003 |
Publishing Document | Publishing Date | Country | Kind |
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WO01/23289 | 4/5/2001 | WO | A |
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Number | Date | Country | |
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20050224731 A1 | Oct 2005 | US |