EP2339549A1 - Machine for processing sheets with multiple modules - Google Patents

Abstract

Paper sheets or banknotes are fed to the printing machine from a stack (01) with a lifting table. They are passed to an inspection stage (31) via a conveyer belt (04). The inspection stage has two cameras (38,44) aimed at the paper on the rollers. There is a first inspection stage (A), a UV inspection stage (B) and a stage where the paper is inspected by shining a light through it (C). The inspection stage has a framework (30) and a support column (35) and is followed by a framework (09) for a serial number printing stage (08).

Description

The invention relates to a machine for processing sheets, and modules in a sheet-processing machine.

More particularly, the invention relates to a sheet processing machine having a plurality of modules sequentially passed through the sheets to be processed, comprising a sheet feed module for feeding the sheets to a downstream sheet processing module, the sheet accepting sheet and the sheet delivery interface of at least one of the sheet processing modules, optionally at sheet delivery interfaces or sheet acceptance interfaces of at least two other modules can be coupled.

The DE 199 33 304 and the DE 199 61 880 describe sheet processing machines which are modularly constructed from a docking unit and a plurality of identical processing units. ,,

In order to process sheets quickly and in large numbers automatically, they must be lifted individually from a sheet stack at the beginning of the processing and, after processing has been completed, provided that the sheets remain as such during processing, they are put back on a stack. In order to keep the number of removal and Aufstapetungsvorgänge small, it is desirable to combine the processing steps to be performed in the largest possible number in a device. The complexity and price of a sheet processing apparatus increase with the number of processing steps that can be performed on it. The requirements of the users of sheet processing machines with regard to the process steps that the machine should be able to perform differ from case to case. This generally makes it necessary to individually construct a sheet processing machine for a variety of individual intended use environments.

The invention has for its object to provide a sheet-processing machine and modules for this, which is customizable for a variety of intended in individual cases application environments.

• ein Inspektionsmodul zum Überwachen der Druckqualität der. Bogen;
• ein Markiermodul zum Kennzeichnen eines Bogens als brauchbar oder unbrauchbar in Abhängigkeit von einem Überwachungsergebnis des Inspektionsmoduls; und
• ein Nummeriermodul zum Anbringen einer laufenden Nummerierung auf den Bogen, und dass die Module so beschaffen sind, dass die folgenden Baugruppen von Maschinen wahlweise aufgebaut werden können:
• eine erste Baugruppe mit nacheinander gekoppelten Bogenanlagemodul und Nummeriermodul;
• eine zweite Baugruppe mit nacheinander gekoppelten Bogenanlagemodul," Inspektionsmodul und Nummeriermodul; und
• eine dritte Baugruppe mit nacheinander gekoppelten Bogenanlagemodul, Inspektionsmodul und Markiermodul.

The object is achieved by a machine of the type mentioned, in which the sheet-processing. Module optionally one or more of The following modules include:

• an inspection module for monitoring the print quality of the. Bow;
• a marking module for marking a sheet as usable or useless in response to a monitoring result of the inspection module; and
• a numbering module for applying a serial numbering to the sheet, and that the modules are arranged so that the following assemblies of machines can optionally be set up:
• a first assembly with successively coupled sheet plant module and numbering module;
• a second subassembly with sequentially coupled sheetfed module, "inspection module and numbering module;
• a third assembly with sequentially coupled sheetfed module, inspection module and marking module.

• die Schnittstellen jeweils Transportzylinder zum Übernehmen eines Bogens von einem Abgabe-Transportzylinder eines vorgelagerten Moduls oder zum Abgeben eines Bogens an einen Annahme-Transportzylinder eines nachgelagerten Moduls aufweisen;
• ein Bogentransportweg innerhalb eines Moduls, das eine an mehrere Bogenabgabeschnittstellen koppelbare Bogenannahmeschnittstellen aufweist, durch eine gerade Anzahl von Transportzylindern gebildet ist;
• der Abgabe-Transportzylinder eines vorgelagerten Moduls und der Annahme-Transportzylinder eines nachgelagerten Moduls entgegengesetzten Drehsinn haben;
• die Module jeweils eigene Seitengestellplatten umfassen;
• die Transportzylinder an den Seitengestellplatten befestigt sind;
• die Seitengestellplatten der einzelnen Module aneinander befestigt sind;
• die Module einen Ausschnitt aufweisen, in welchem die Seitengestellplatten der Module eingreifbar und abstützbar sind;
• zur Abstützung der Module Säulen anordenbar sind
• eines der Module ein Inspektionsmodul zum Überwachen der Druckqualität der Bogen ist;
• ein Modul ein Markiermodul zum Kennzeichnen eines Bogens als brauchbar oder unbrauchbar in Abhängigkeit von einem Überwachungsergebnis des .Inspektionsmoduls ist;
• eines der Module ein Nummeriermodul zum Anbringen einer laufenden. Nummerierung auf den Bogen ist;
• das Nummeriermodul in Förderrichtung der Bogen hinter dem Inspektionsmodul angeordnet ist, um die Nummerierung nur auf denjenigen Bogen anzubringen, die die Qualitätsprüfung durch das Inspektionsmodul bestanden haben;
• im Numrrierlerrnodul eine Markiereinrichtung angeordnet ist;
• ein Transportmodul angeordnet ist;
• ein Erweiterungsmodul angeordnet ist;
• ein Farbwerkmodul angeordnet ist;
• Farbwerkwalzen des Farbwerkmoduls in Seitengestellplatten gelagert sind, die mit den Seitengestellplatten der anderen Module verbindbar sind;
• das Farbwerkmodul auf anderen Modulen anordenbar ist;
• eines der Module ein Druckmodul ist;
• das Druckmodul auf andere Module anordenbar ist und den Zylinder des jeweiligen Moduls als Formzylinder nutzt;
• das Druckmodul.einen Transportzylinder eines dem Modul benachbarten Moduls als Gegendruckzylinder nutzt;
• der Umfang der Transportzylinder gleiche Größe aufweisen;
• der Formzylinder gleiche Größe wie die Transportzylinder aufweist;
• die Transportzylinder der Bogenabgabestelle und die Transportzylinder der Bogenannahmestelle in gleicher Höhe angeordnet sind.

Embodiments of the sheet processing machine are those

• the interfaces each comprise transport cylinders for taking over a sheet from a delivery transport cylinder of an upstream module or for delivering a sheet to an acceptance transport cylinder of a downstream module;
• a sheet transport path within a module having a sheet receiving interface coupleable to a plurality of sheet delivery interfaces is formed by an even number of transport cylinders;
• the delivery transfer cylinder of an upstream module and the acceptance transfer cylinder of a downstream module have opposite directions of rotation;
• the modules each comprise their own side frame plates;
• the transport cylinders are attached to the side frame plates;
• the side frame plates of the individual modules are fastened together;
• the modules have a cutout in which the side frame panels of the modules are engageable and supportable;
• for supporting the modules columns can be arranged
• one of the modules is an inspection module for monitoring the print quality of the sheets;
• a module is a marking module for marking an arc as usable or useless in response to a monitoring result of the inspection module;
• one of the modules is a numbering module for attaching a running one. Numbering on the sheet is;
• the numbering module is arranged downstream of the inspection module in the conveying direction of the sheets, in order to apply the numbering only to those sheets which carry the number Have passed quality inspection by the inspection module;
• in the Numrrierlerrnodul a marking device is arranged;
• a transport module is arranged;
• an expansion module is arranged;
• an inking module is arranged;
• Ink fountain rollers of the inking unit module are mounted in side frame plates, which are connectable to the side frame plates of the other modules;
• the inking module can be arranged on other modules;
• one of the modules is a printing module;
• the printing module can be arranged on other modules and uses the cylinder of the respective module as a forme cylinder;
• the printing module uses a transport cylinder of a module adjacent to the module as impression cylinder;
• the circumference of the transport cylinders have the same size;
• the form cylinder has the same size as the transport cylinder;
• the transport cylinder of the sheet delivery point and the transport cylinder of the sheet receiving point are arranged at the same height.

• das Modul ein Inspektionsmodul ist und dass es zwei Transportzylinder, die die Bogen jeweils mit verschiedenen nach außen gekehrten Seiten transportieren, und an den zwei Transportzylindern angeordnete Inspektionseinrichtungen zum Inspizieren von Vorder- bzw. Rückseite der Bogen umfasst;
• die Inspektionseinrichtungen jeweils einen Bildsensor und eine Auflichtquelle umfassen, die Inspektionseinrichtungen eine UV-Lichtquelle und einen Lichtsensor für von der UV-Lichtquelle angeregte Fluoreszenz umfassen;
• die Inspektionseinrichtungen einen Magnetfeldsensor.umfassen;'
• ein weiterer Transportzylinder mit einer weiteren Inspektionseinrichtung angeordnet ist;
• die Inspektionseinrichtung einen Bildsensor und eine Durchlichtquelle umfasst;
• das Modul ein Nummeriermodul ist und wenigstens ein Nummerierwerk zum Aufdrucken einer laufenden Nummer auf dem zu verarbeitenden Bogen umfasst;
• zwei Nummerierwerke an einem Gegendruckzylinder mit zwei Drucksätteln angeordnet sind;
• eine Markiereinrichtung vor einem Nummerierwerk angeordnet ist;
• eine Markiereinrichtung an einem Gegendruckzylinder eines Nummerierwerkes angeordnet ist;
• eine Markiereinrichtung einen Randbereicht einer Spalte und/oder eine Reihe, in der sich der Fehler befindet, markiert;
• eine Markiereinrichtung eine Spalte markiert und die Zeilennummer, in der sich der fehlerhafte Druck befindet, ausgibt;
• das Modul eine Markiereinrichtung zum Anbringen einer Markierung auf Bogen umfasst;
• das Modul ein Markiermodul ist und eine Markiereinrichtung zum Anbringen einer Markierung auf Bogen umfasst;
• die Markiereinrichtung ausgelegt ist, um die Unbrauchbar-Markierung selektiv auf einzelnen Nutzen oder bezogen auf einzelne Nutzen eines Bogens anzubringen;
• die Markiereinrichtung den Randbereich einer Spalte und/oder einer Reihe markiert, in der sich der Fehler befindet;
• die Markiereinrichtung eine Spalte markiert und die Zeilennummer, in der sich der fehlerhafte Druck befindet, markiert;
• die Markiereinrichtung eine Mehrzahl von quer zur Transportrichtung der Bogen gleichmäßig verteilten Druckköpfen umfasst;
• die Markiereinrichtung ein Tintenstrahldruckwerk ist;
• ein Modul ein Farbwerk ist und in Verbindung mit anderen Modulen ein Druckwerk bildet;
• das Farbwerk abnehmbar auf dem Modul aufgebaut ist;
• das Farbwerk in Verbindung mit einem Formzylinder eines anderen Moduls ein Druckwerk bildet;
• der Transportzylinder eines anderen Moduls als Gegendruckzylinder wirkt;
• es ein Druckmodul ist;
• es eine Bogenannahmeschnittstelle und eine Bogenabgabeschnittstelle aufweist, die zueinander komplementär sind.

Embodiments of the modules are those where

• the module is an inspection module and comprises two transport cylinders each conveying the sheets with different sides turned outwards, and inspecting means arranged on the two transport cylinders for inspecting front and back of the sheets, respectively;
• the inspection devices each comprise an image sensor and an incident light source, the inspection devices comprise a UV light source and a light sensor for fluorescence excited by the UV light source;
• the inspection devices comprise a magnetic field sensor;
• a further transport cylinder is arranged with a further inspection device;
• the inspection device comprises an image sensor and a transmitted light source;
• the module is a numbering module and comprises at least one numbering unit for printing a serial number on the sheet to be processed;
• two numbering machines are arranged on an impression cylinder with two pressure saddles;
• a marking device is arranged in front of a numbering machine;
• a marking device is arranged on an impression cylinder of a numbering unit;
• a marking device marks an edge region of a column and / or a row in which the defect is located;
• a marker marks a column and outputs the row number in which the erroneous print is located;
• the module comprises a marking device for applying a marking to sheets;
• the module is a marking module and comprises a marking device for applying a marking to sheets;
• the marker is adapted to selectively apply the unusable marker to individual use or to individual benefits of a sheet;
• the marking device marks the edge area of a column and / or a row in which the error is located;
• the marker marks a column and marks the row number in which the faulty print is located;
• the marking device comprises a plurality of print heads distributed uniformly transversely to the transport direction of the sheets;
• the marking device is an inkjet printing unit;
• a module is an inking unit and forms a printing unit in conjunction with other modules;
• the inking unit is detachably mounted on the module;
• the inking unit forms a printing unit in conjunction with a forme cylinder of another module;
• the transport cylinder of another module acts as a counter-pressure cylinder;
• it is a printing module;
• it has a sheet accepting interface and a sheet delivery interface that are complementary to each other.

• Zuführen der Bogen,
• Drucken eines gleichbleibenden Motivs auf die Bogen,
• Prüfen der Qualität der Bogen,
• Anbringen einer Unbrauchbar-Markierung an Bogen mit unzureichender Qualität,
• Anbringen einer Nummerierung auf den Bogen mit ausreichender Qualität,
• Ablegen der Bogen.

Thus, the sheet processing machine performs a method wherein between each two processing steps a transfer step between modules provided for performing these processing steps takes place, and wherein at least two of the transfer steps take place between identical pairs of interfaces of the modules. The processing steps include at least three of the following steps:

• Feeding the sheets,
• Printing a consistent motif on the sheets,
• Checking the quality of the sheets,
• Applying an unusable mark to sheets of insufficient quality,
• Applying a numbering on the sheet with sufficient quality,
• Drop the bow.

A particular advantage of the machine is that the flexible interchangeability of the interfaces with one another makes it possible to outsource a module or a group of modules whose input is formed by one of the identical sheet receiving interfaces and whose output is formed by one of the identical sheet delivery interfaces from the machine and assemble the sheet delivery and acceptance interfaces of the remaining parts of the machine so as to provide a machine with a reduced number of functions. Of course, the flexibility of the accepting and dispensing interfaces also allows additional modules or groups of modules to be inserted into the machine as needed. A machine with functions tailored precisely to an application environment can thus be constructed on the modular principle from a plurality of modules which can be placed in any order, without the need for a high design effort or a specific adaptation of parts of the machine in individual cases.

Within such a module, the sheets are preferably conveyed by means of transport cylinders, between which the sheets are transferred. The number of transport cylinders is preferably straight, so that a transport cylinder has the sheet accepting interface of a module and a transport cylinder the sheet delivery interface of the same module opposite in sense of rotation and thus the transport cylinder of the sheet delivery interface can cooperate with a transport cylinder of the sheet accepting interface of the subsequent module, which rotates in the same direction as that of the own sheet receiving interface.

The modules are preferably constructed with their own side frame plates, which can be fastened together to assemble the entire machine.

A module of such a sheet-processing machine can, for. An inspection module for monitoring the printing quality of sheets being processed by the machine.

The inspection result of the inspection module can be used to control a sheet sorting operation into usable sheet and waste that takes place on a sheet delivery of the machine. It can also be provided as a further module Markiermodul that serves to mark a bow as useful or unusable depending on the monitoring result of Inspektiorismoduls.

Such a module may also be a printing module. Such a printing module is preferably further subdivided into a transport module which serves for transporting the sheets through a printing nip and may also be provided for further processing of the sheets, and a printing unit which can be placed on the transport module to form a printing nip.

In a particularly space-saving design of the machine, the printing module utilizes a transport cylinder of a third module adjacent to the printing module as an impression cylinder for printing. In particular, the transport cylinder of the sheet delivery interface of a module upstream of the printing module can be used for this purpose.

Another module that may be included in the machine is a numbering module for applying a serial numbering to the sheet. Such a module is particularly useful when the machine is to be used for the production of bills or other securities in which each copy must be provided with a sequential number. Preferably, such a numbering module is arranged behind the inspection module in order, depending on the detection results of the inspection module, to apply the numbering only to those sheets which have passed the quality inspection by the inspection module.

An inspection module preferably comprises two transport cylinders, which transport the sheets with different sides facing outwards, and first inspection devices, arranged on the two cylinders, for inspecting the front and back of the sheets, respectively. These inspection devices preferably each comprise an image sensor and an incident light source for detecting the printed image illuminated by the incident light source on each side of the sheet. This printed image can be compared by an evaluation device with a target image in order to identify the sheet as unusable in case of deviations between the target image and the printed image on the sheet. Alternatively or additionally, a UV light source and a light sensor can be provided which are suitable for detecting fluorescence excited by the UV light quantum on a sheet to be checked. This light sensor may be spatially resolving like the above-mentioned image sensor; it may even be identical to the image sensor. Alternatively, it may be a non-resolving light sensor that provides only a measure of the intensity of the fluorescence in the part of the arc illuminated by the UV light source. To special security features of To detect bills such as metal threads incorporated into the sheets, the first inspection devices may also be equipped with a magnetic field sensor that responds to changes in a magnetic field caused by metal objects introduced into the field.

Furthermore, a further inspection device can be provided which comprises an image sensor and a transmitted light source for scanning the sheets to be examined. Such a further inspection device allows z. As inspections of watermarks or the Passerhaltigkeit of front and back prints of the arc with respect to each other.

The euro banknotes carry on one side two differently colored imprints of a consecutive number. In order to produce such imprints with the machine, its numbering module is preferably equipped with two numbering machines for producing each one of the two imprints. To simplify the numbering module, these are preferably arranged on a same impression cylinder. In order to be able to attach devices for taking over, holding and transferring the sheets from or to an adjacent cylinder and the numbering machines on its circumference, it preferably has a circumference greater than two arc lengths or is equipped with two pressure saddles.

A marking device for applying an unusable mark to sheets on the basis of the detection results of the inspection module can be inserted in the numbering module or provided as part of a separate module. As a marking device, an ink jet printing unit is preferably used, since this can be arranged in a space-saving manner to a large extent anywhere and requires no impression cylinder for generating the markings.

Embodiments of the invention are illustrated in the drawings and will be described in more detail below.

• Fig. 1 - 7 jeweils einen schematischen Längsschnitt durch eine erfindungsgemäße bogenverarbeitende Vorrichtung.

Show it:

• Fig. 1-7 in each case a schematic longitudinal section through a sheet-processing device according to the invention.

Fig. 1 shows a basic design of the machine. A first assembly of the machine is a sheet feeder 01. This sheet feeder 01 are fed to be processed sheet each in the form of a stack 02. A lifting table 03 of the sheet feeder 01 raises the stack 02 until its uppermost sheet reaches a predetermined height, in which it can be lifted off the stack 02 with the aid of horizontally displaceable suction bells and laterally displaced in the direction of a belt table 04. For clarification, it should be mentioned that the belt table 4 is part of the sheet feeder 01. The belts of the sheet table 04 convey a sheet each in contact with a suction roll 06 to which the sheet adheres and whose rotation is controlled to further convey the sheet to a transfer cylinder 07 constituting the sheet delivery interface 07 of the sheet feeder the leading edge of the sheet of grippers the transport cylinder 07 can be detected.

Subsequent to the belt table 04, or the sheet system, a numbering module 08 is arranged. Numbering module 08 includes a plurality of cylinders 16; 17; 18; 19; 23, like the cylinder 06; 07 of the belt table 04 are rotatably supported in side frame plates 09. The side frame plates 09, the numbering module 08 have a cutout in which the side frame plates 11 of the band table 04 engage, so that they are supported by the side frame plates 09. The side frame plates 09; 11 1 are each attached to each other.

A printing unit is constructed of an inking unit 12 placed on the numbering module 08 with a plurality of rollers suspended between side frame plates 13 and a plate cylinder 16 colored by the inking unit 12. The side frame plates 13 rest on the side frame plates 09; 11 and are attached to this. The form cylinder 16 of the printing unit has an axis which is equal to the side frame plates 09 of the numbering module 08, and limited together with the transport cylinder 07 a pressure nip. The numbering module 08 with the forme cylinder 16 and the inking unit 12 can thus also be regarded as a printing module. This printing module can be used to print a still missing detail on sheets that are already stacked with a pre-printed basic pattern on the sheet feeder 01. This is particularly useful in the production of bills whose basic pattern is printed in high volume and generally over many years completely unchanged but which has certain varying details at shorter intervals, such as the signature of a chairman of a bank issuing the central bank located in change at shorter intervals. To print such a signature in otherwise preprinted bills, the print module is well suited.

Passing the pressure gap between the forme cylinder 16 and the transport cylinder After passing through the pressure gap between the forme cylinder 16 and the transport cylinder 07 of the sheet delivery interface 07 of the belt table 04, the sheets reach a transfer drum 17 and via this a impression cylinder 18 of the numbering module 08. Two numbering units 21; 22, each with an inking unit and a colored by the inking numbered 19, which serve to print a serial numbering on the guided through the device sheet are arranged on the impression cylinder 18. To the Numbering 21; 22 to accommodate the circumference of the impression cylinder 18, whose diameter is twice as large as that of the numbering cylinder 19, the Übergägeschommel 17, the forme cylinder 16 and the transport cylinder 07th

The two numbering machines 21; 22 each print identical serial serial numbers each in two digits of each banknote printed on the continuous sheets. In principle, it would also be possible to use two such prints with a single numbering unit 21; 22 to produce; the use of two numbering machines 21; 22, however, allows the numbering to be printed at the two locations in different colors and two positions in the circumferential direction, respectively.

Numbering cylinders 19 of numbering machines 21; 22 carry at its periphery according to the arrangement of the banknotes on the sheet in the longitudinal and circumferential directions distributed a plurality of number printing units, each having a plurality of rotary digit wheels, which carry on their circumference in each case all printable digits and a serial number corresponding to the orientation of print single numbered wheels. During normal operation of the machine, the dial wheels are incremented one step after each print so that consecutive numbers are printed on the sheet. A malfunction sensor is provided on each numeral printing unit to detect whether or not the digit wheels are properly indexing between two printing operations on successive sheets. If no forwarding is detected, there is a fault and the unit is stopped.

When the sheets on the counter-pressure cylinder 18 have passed both numbering cylinders 19, they are taken over by a chain conveyor at a transfer cylinder 23, which feeds them via a connecting frame 24, a sheet delivery arm 26. The sheet delivery 26 has a modular construction with a plurality of stacks 27, 28; 29 on which the sheets can be optionally designed. If one of the stacks, here the stack 27, is full, the sheet delivery 26 automatically switches to another stack 28, so that the full stack 27 can be traversed without interrupting the processing.

Fig. 2 shows a modified embodiment of the processing device Fig. 1 , Parts of this embodiment, already with reference to Fig. 1 correspond, bear like reference numerals and will not be described again. The bow arm 26 is connected to the Fig. 1 identical and in the Fig. 2 not shown again:

Between the belt table 04 and the numbering module 08, an inspection module 31 is inserted here. The inspection module 31 comprises four transport cylinders 32 held between side frame panels 30; 33; 34; 36. The side frame panels 30 of the inspection module 31 are each attached to one side of those of the belt table 04 and on another side of those of the numbering module 08. Since neither the side frame plates 30 of the inspection module 31 nor those of the belt table 04 extend to the bottom, they are supported by columns 35.

The transport cylinder 32 forms a sheet receiving interface 32, which takes over sheets from the transport cylinder 07 of the belt table 04. A first inspection device A arranged on the transport cylinder 32 comprises a light source 37 for illuminating a side of the sheet located on the cylinder 32 and a camera 38 for scanning the area of the sheet surface illuminated by the light source 37 and a housing 39 in the light source 37 and camera 38 are housed to shield them from ambient light. A computer, not shown in the figure, connected to the camera 38 compares the image of the sheet captured by the camera with a desired printed image stored in electronic form and decides whether the coincidence between the acquired printed image and the desired printed image is so good that the Quality of the bow can be judged as sufficient. On the cylinder 32, a UV-inspection device B is further arranged with a UV light source and a light sensor, which is not sensitive to the UV light of the light source, but detected by her excited fluorescence of the sheet. Also, the intensity of the fluorescence is compared by the control unit (not shown) with a target value to judge the quality of the sheet.

After circulation on the cylinder 32, the arc to the downstream Transfer cylinder 33 passed. At this transport cylinder 33 that side of the sheet is turned outwards, which was facing the cylinder 32 this. The same inspection devices A; B, which are arranged on the cylinder 32, are also provided on the cylinder 33 in order to be able to check the quality both sides of the sheet in the same way.

After circulation around the cylinder 33 reaches the arc, the cylinder 34, within the transparent jacket, a light source 42 is arranged. A camera 44 housed in a shielded housing 43 again scans the area of the arc illuminated by the light source 42, and the control unit also compares the image supplied by this camera 44 with a desired image. The transmitted light inspection device C formed by the light source 42, the housing 43 and the camera 44 allows the detection of registration errors between front and back printing of the sheets.

A (not shown) magnetic field sensor, the z. B. may be formed of a permanent magnet or an electromagnet and a Hall sensor can be connected to any transport cylinder 32; 33; 34; 36 of the inspection module 31 may be arranged. It allows the detection of metal filaments or other metallic elements, which are incorporated as a safety feature in many modern banknotes.

The last transport cylinder 36 of the inspection module 31 forms the same. Sheet delivery interface 36 to the following numbering module 08. The cylinder 36 is arranged at the same height as the transport cylinder 07, which forms the sheet delivery interface 07 of the belt table 04. In addition, the shape of the side frame plates 30, the cylinders 32; 33; 34; 36 of the inspection module 31, aligned in their numbering module 08 facing area of the shape of the side frame plates 09, so that it is possible to remove the inspection module 31 and attach the belt table 04 directly to numbering module 08, so as the embodiment of Fig. 1 to receive or the in Fig. 1 shown machine by subsequent insertion of the inspection module 31 between belt table 04 and numbering module 08 and removed the inking unit 12 and the forme cylinder 16 in the machine of Fig. 2 convert.

While a bow the various inspection facilities A; B; C of the inspection module 31 passes and is then transported in the numbering module 08 to the impression cylinder 18, the computer evaluates the results of various inspection facilities A; B; C and decides whether the quality of the sheet or the individual printed on the sheet bank node is sufficient. If so, the sheet passes through the two numbering machines 21; 22, in which the individual banknotes are numbered, and is transmitted via the connection frame 24 (FIG. Fig. 1 ) further promoted to that in the Fig. 2 This is controlled by the control unit to interpret the sheet on one of the two provided for useful sheet stack 27 or 28.

If the computer determines that the quality of a sheet or single bill on a sheet is insufficient, it will drive a marker 46 located on the impression cylinder 18. The marking device 46 comprises a number of ink-jet spray heads, each of which is aligned with a column of banknotes printed on the sheets and is controllable by the computer to mark on a banknote of poor quality at the moment of its passage in front of the marker 46 to spray. It is also conceivable to control the spray heads of the marking device 46 at a point in time where an unprinted front or rear edge of a sheet found to be defective passes in front of the marking device 46 so as to mark a respective column on the sheet containing a faulty banknote. Thus, the error is not obscured by the mark and can be inspected by maintenance personnel. In this variant, it may be expedient to provide an additional spray head in the marking device 46 in order to set a marking on an unprinted lateral edge of the sheet at the level of a line containing the faulty banknote, so that the banknote found to be faulty, which is located at the intersection of the marked row and column, for a viewer to identify immediately.

When the computer detects that a sheet contains a bad bill, it also controls the numbering machines 21; 22 such that they pass the bow; without numbers printed on it. Consequently, the numbering machines 21; 22 no longer pass their numbers on the passage of the faulty sheet, so that a subsequent error-free sheet will each receive numbers immediately adjacent to that of a previously numbered sheet. Further, the computer controls the sheet delivery arm 26 to cause it to interpret the unnumbered sheet on the intended in this embodiment for waste stack 29. The on the stack 27; In any case, 28 sheets deposited for usable sheets are numbered so that they are subsequently cut into individual banknotes and the banknotes are cut into consecutively numbered packages can be assembled and banded without the need for manual intervention.

As Fig. 3 shows, of course, then from the inking unit 12 and forme cylinder 16 existing printing unit may be added to the numbering module 08 when between the numbering module 08 and belt table 04, the inspection module 31 is inserted. In this case, the transport cylinder 36 of the inspection module 31 acts as a counter-pressure cylinder 36 with the forme cylinder 16 of the printing unit together.

In the simplified modification of Fig. 4 the numbering module 08 is replaced by a marking module 47. This marking module 47 has as a sheet receiving interface 49 on a transfer cylinder 49 which is identical to the cylinder 17 of the numbering module 08 and is arranged at the same position as this. The transfer cylinder 49 passes the sheet on to a transport cylinder 48, which unlike the impression cylinder 18 has the same diameter as the cylinder 17; 32; 33; 34; 36 etc. has. At this transport cylinder 48 is at a suitable position with respect to Fig. 2 described marking device 46 is arranged. The operation of the marker 46 is the same as with reference to FIG Fig. 2 described; Again, marked with a marker as unusable sheet on the waste stack 29 of the sheet delivery 26 sorted out.

As Fig. 5 shows, the printing unit can be mounted on the marking module 47 in the same manner as on the numbering module 08.

In the embodiments of Figures 3 and 5 The sheets pass through the inspection module 31 before the printing unit, so that the quality of the pressure generated by the latter can no longer be checked by the inspection module 31. As Fig. 6 shows, can solve this problem by between the belt table 04 and the inspection module 31, a transport module 51 is inserted, which has essentially this function to serve as a support for the printing unit. The transport module 51 contains two transport cylinders 52, 53, which respectively form the sheet acceptance 52 and discharge interface 53 of the module 51. Their task is essentially only to promote the arc between the belt table 04 and the inspection module 31 over a distance that is required to accommodate between the belt table 04 and the inspection module 31, the printing unit can. The forme cylinder 16 of the, Druckwefks acts as in the embodiment of Fig. 1 with the transport cylinder 07 of the belt table 04 together.

Fig. 7 shows a further embodiment in which between inspection module 3.1 and marking module 47 nor an extension module 54 with two transport cylinders 56; 57 is inserted. The expansion module 54 may serve as a support for any other functional groups for performing processing steps on the sheet. It may, for example, serve as a carrier for further inspection devices which do not find any place on the inspection module 31, as a carrier for a printing unit for laser marking devices, etc. It would also be conceivable to construct the inspection module 31 from two expansion modules; where z. B. on one of these incident light inspection devices A and the second, the transmitted light inspection device C could be attached.

LIST OF REFERENCE NUMBERS

01

sheet feeder

02

stack

03

lifting table

04

Module, belt table

05

-

06

suction roll

07

Transport cylinder, sheet delivery interface

08

Module, numbering module

09

Side frame plates from 08

10

-

11 1

Side frame plates from 04

12

inking

13

Side frame plates of 12

14

-,

15

-

16

Cylinder, forme cylinder

17

Cylinder, transfer cylinder, transfer drum, sheet accepting interface

18

Cylinder, impression cylinder

19

Cylinder, numbering cylinder

20

-

21

numbering

22

numbering

23

Cylinder, transfer drum

24

connection frame

25

-

26

sheet delivery

27

stack

28

stack

29

Stack, waste stack

30

Side frame plates from 31

31

Module, inspection module

32

Cylinder, transport cylinder, sheet acceptance interface

33

Cylinder, transport cylinder

34

Cylinder, transport cylinder

35

pillar

36

Cylinder, transport cylinder, sheet delivery interface

37

light source

38

camera

39

casing

40

-

41

-

42

light source

43

casing

44

camera

45

-

46

marking

47

Module, marking module

48

transport cylinder

49

Transfer cylinder, transport cylinder, sheet acceptance interface

50

Side frame plate of 47

51

Module, transport module

52

Transport cylinder, sheet acceptance interface

53

Transport cylinder, sheet delivery interface

54

Module, expansion module

55

-

56

Transport cylinder, sheet acceptance interface

57

Transport cylinder, sheet delivery interface.

58

Side frame plate,

59

Side frame plate

A

Inspection device, first

B

Inspection device, UV

C

Inspection device, transmitted light

Claims (18)

A sheet-processing machine for making bills or other securities having a plurality of successively coupled modules for processing sheets provided with a plurality of columns and rows of utility, comprising: - A sheet-fed module (04) with a sheet feeder (01) for feeding individual sheets; - an inspection module (31) coupled to the sheetfed module (04) for monitoring the print quality of the sheets; and a numbering module (08) coupled to the inspection module (31) for applying a serial numbering to the sheet, wherein the sheetfed module (04), the inspection module (31) and the numbering module (08) are designed such that the inspection module (31) can be uncoupled from the other modules and a sheet accepting interface (17) of the numbering module (08) is delivered to a sheet delivery interface ( 07) of the sheet-fed module (04) can be coupled. A sheet-processing machine for making bills or other securities having a plurality of successively coupled modules for processing sheets provided with a plurality of columns and rows of utility, comprising: - A sheet-fed module (04) with a sheet feeder (01) for feeding individual sheets; - an inspection module (31) coupled to the sheetfed module (04) for monitoring the print quality of the sheets; and a numbering module (08) coupled to the inspection module (31) for applying a serial numbering to the sheet or a marking module (47) coupled to the inspection module (31) for marking a sheet as usable or useless in response to a monitoring result of the inspection module ( 31) wherein the sheet-fed module (04), the inspection module (31), the numbering module (08) and the marking module (47) are designed such that a Sheet delivery interface (36) of the inspection module (31) either to a sheet receiving interface (17) of the numbering module (08) or a sheet receiving interface (49) of the marking module (47) can be coupled. Sheet-processing machine according to claim 2, characterized in that the marking module (47) comprises a marking device (46), preferably an ink-jet printing unit, for applying a marking to the sheet. Sheet-processing machine according to claim 1 or 2, characterized in that in the numbering module (08) a marking device (46), preferably an inkjet printing unit, is arranged for applying a marking to the sheet, wherein the marking device (46) preferably in front of a numbering (21; 22) of the numbering module (08) and on an impression cylinder (18) of this numbering unit (21; 22) is arranged. Sheet-processing machine according to claim 3 or 4, characterized in that the marking device (46) marks an edge region of a column and / or a row in which an error is located, or marks a column and a line number in which there is an error , spends. A sheet-processing machine according to any one of claims 3 to 5, characterized in that the marking device (46) is adapted to selectively apply an unusable mark to individual uses or to individual uses of the sheet. Sheet-processing machine according to one of claims 3 to 6, characterized in that the marking device (46) comprises a plurality of transverse to the transport direction of the sheet evenly distributed printheads. Sheet-processing machine according to one of the preceding claims, wherein the inspection module (31) is coupled to the numbering module (08), characterized in that the numbering module (09) applies the numbering only to those sheets which pass the quality inspection by the inspection module (31). passed. Sheet-processing machine according to claim 1 or 2, characterized in that a transport module (51) is coupled between the sheet-fed module (04) and the inspection module (31). Sheet-processing machine according to claim 1 or 2, characterized in that an extension module (54) is coupled between the inspection module (31) and the marking module (47). Sheet-processing machine according to claim 1 or 2, characterized in that an inking unit module (12) is arranged, which in conjunction with another module (08; 47; 51) has a printing module (08,12,16; 47,12,16; 51 ; 12; 16), and that the inking unit module (12) uses a cylinder (16) of the other module (08; 47; 51) as a forme cylinder (16) and forms a printing unit therewith. Sheet-fed machine according to claim 11, characterized in that the printing module (08, 12, 16; 47, 12, 16; 51; 12; 16) comprises a transport cylinder (07; 36) of the printing module (08, 12, 16; 12, 16, 51, 12, 16) upstream module (04, 31) as an impression cylinder (07, 36) for the forme cylinder (16) uses. Sheet-processing machine according to one of the preceding claims, characterized in that the sheet delivery interface (07, 36, 53; 57) or sheet receiving interfaces (17; 32; 49; 52; 56) are transport cylinders (07; 17; 32; 36; 49; 52; 53; 56; 57) for accepting a sheet from a delivery transfer cylinder (07; 36; 53; 57) of an upstream module (04; 31; 51; 54) or for delivering a sheet to an acceptance transfer cylinder (17 ; 32; 49; 52; 56) of a downstream module (08; 31; 51; 54). Sheet-processing machine according to claim 13, characterized in that the delivery transport cylinders (07; 36; 53; 57) and the acceptance transport cylinders (17; 32; 49; 52; 56) are arranged at the same height and preferably the same size exhibit. Sheet-processing machine according to one of the preceding claims, characterized in that the modules (04; 08; 31; 47; 51; 54) each comprise their own side frame plates (09; 11; 13; 30; 50; 58; 59), which preferably abut each other and in that the modules (04; 08; 31; 47; 51; 54) have a cutout in which the side frame plates (09; 11; 13; 30; 50; 58; 59) of the modules (04; 08; 31, 47, 51, 54) are engageable and supportable. Sheet-fed machine according to Claims 13 and 15, characterized in that the transport cylinders (07; 17; 32; 36; 49; 52; 53; 56; 57) are attached to the side frame plates (09; 11; 13; 30; 50; 58; 59 ) are attached. Sheet-processing machine according to one of the preceding claims, characterized in that the inspection module (31) comprises inspection devices (A; B; C) and an even number of transport cylinders (32, 33, 34, 36) for transporting the sheets,
wherein a first transport cylinder (32) transports the sheets with the front side turned out to inspect the front side of the sheets with a first inspection device (A; B); - wherein a second transport cylinder (33) transports the sheets with the back side facing out to inspect the back of the sheets with a second inspection device (A; B); and - wherein a third transport cylinder (34) having a transparent jacket transports the sheet to inspect the transparency of the sheet with a third inspection device (C). Sheet-processing machine according to claim 17, characterized in that said first and second inspection means (A; B) each comprise an image sensor (38) and an incident light source (37) and / or a UV light source and a light sensor for fluorescence excited by the UV light source include,
in that the third inspection device (C) comprises an image sensor (44) and a transmitted light source (42), the transmitted light source (42) being arranged inside the transparent jacket of the third transport cylinder (34),
and that the first and second inspection devices (A; B) preferably further comprise a magnetic field sensor.

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