The invention relates to a method and an apparatus for monitoring the singling of sheet material, in particular of bank notes.
For processing sheet material, in particular bank notes, it is provided that the bank notes are inputted into an input area as loose stacks and are singled by a singler. The individual bank notes are transferred to a transport system by the singler and supplied to processing. Usual types of processing bank notes are the acceptance, check and recognition of bank notes by means of sensors, there being determined authenticity, type (currency, denomination), state (soiling, damage) etc. Based on the results of the check and recognition, the bank notes are subsequently e.g. sorted, stacked, bundled, destroyed etc.
For processing the bank notes in the bank note processing machines it is of elementary importance that after the singling by the singler the bank notes each are actually present in separated fashion. Therefore, in the past, a plurality of improvements has been proposed, which were to improve the quality of the singling and to ensure that the singler singles only one bank note at a time and, in particular, prevents the singling of two or more bank notes at the same time.
For this purpose, for example, elaborate mechanical improvements of the singler itself have been proposed. Likewise, it has been proposed to install a sensor immediately after the singler in order to determine whether the singler has grasped more than one bank note on singling.
Further problems occur during singling, when besides normal bank notes changed bank notes are present in the input area. The changes first of all are foldings of the bank notes. Such folded bank notes cause problems during the further processing, since they lead to jams in the transport system or cannot be recognized and checked by the sensors.
Additional problems on processing bank notes singled by the singler occur, when the singler does not evenly grasp the bank notes to be singled during the singling. In this case the bank notes are transferred in an oblique fashion to the transport system and can also lead to jams or problems, when the sensors carry out the recognition and check.
Starting out from the stated prior art and the problems connected therewith, the invention is based on the problem to provide a method and an apparatus for monitoring the singling of sheet material, in particular bank notes, by means of a singler, which without elaborate mechanical improvements of the singler itself clearly improves the quality of singling.
The solution to this problem appears from the features as described herein.
The invention starts out from monitoring the singling of sheet material, in particular of bank notes, by means of a singler having a drive and a control device for a monitoring and controlling of the singler, wherein a monitoring of place, time, orientation and state of the singled sheet material is effected immediately after the singling.
The advantage of the solution according to the invention is that by monitoring place, time, orientation and state of the singled sheet material immediately after the singling, it can be reliably recognized whether during the singling of sheet material with the singler according to the invention there occur errors, in particular whether double or multiple picks of sheet material are effected, or whether changed bank notes, e.g. folded bank notes, are grasped by the singler, or whether the sheet material is singled evenly and with good quality.
In a development it is provided that sensors disposed in two opposite edge areas of the width provided for the transport of sheet material are formed by light barriers, and that a sensor disposed in between is formed by an ultrasonic sensor.
The development has the advantage that an especially simple and cost-efficient structure for monitoring place, time, orientation and state of the singled sheet material is provided.
Further embodiments and advantages of the invention are explained in the following with reference to the Figures and their description.
Exemplary singler 1, 2, 3 has the structure of a so-called friction wheel singler, which has a singling element 1 with a friction element 2 and a retaining element 3. Singling element 1 is of a wheel-shaped or roller-shaped structure and has the friction element 2 within a certain part of its circumference. Compared to the remaining surface of singling element 1, friction element 2 has a higher coefficient of friction. In this way it is achieved that bank notes BN to be singled, which are inputted into an input area 6 for singling, are grasped and singled by the friction element 2 only when the singling element 1 is rotated by a drive 4, 7 in a predetermined first direction 5. Therefore, with a complete revolution of the singling element 1 only one bank note BN1 is grasped and singled by the friction element 2.
Drive 4, 7 consists of a motor 4 and a velocity sensor 7, for example an optical rotary encoder. For setting a desired speed, the signals of the velocity sensor 7 are evaluated and the motor 4 is controlled by a control device 8.
To retain further bank notes BN, which are in the input area 6 together with the bank note BN1 just grasped by the singling element 1 or its friction element 2, from being grasped and singled, retaining element 3 is provided. Retaining element 3 has an increased coefficient of friction over its entire circumference. By the choice of the coefficient of friction and/or by determining the geometric shape of retaining element 3 and singling element 1 with associated friction element 2, it is achieved that the rotation of singling element 1 results in ratios of forces, which permit the singling of one bank note BN1 and the retention of further bank notes BN. Likewise, it is possible that the retaining element 3 is also driven. For this, however, a direction of rotation is chosen, which opposes the direction of rotation 5 of the singling element 1, in order to effect the retention of the further bank notes BN.
The structure of such a singling element 1 with associated friction element 2 and retaining element 3 is described e.g. in DE 102 24 486 A1. Retaining element 3 can also have a different, for example runner-shaped, form. It is obvious, that besides the friction wheel singler described by way of example, every other singler can be used for singling bank notes and their monitoring according to the invention.
After bank note BN1 has been singled, it is transferred to a not shown transport system, which is part of a bank note processing machine likewise not shown, and the singled bank notes are transported in a transport direction T through the bank note processing machine for being further processed, where they are, for example, checked by further sensors 9 and are processed in the way described at the outset.
Sensors 10 are disposed immediately after singler 1, 2, 3, which check the bank note BN1 grasped and singled by singler 1, 2, 3 as to whether a faulty singling has occurred, i.e. whether in particular more than one bank note was singled, whether the singled bank note is a changed bank note, in particular whether the bank note is folded, and whether the bank note was singled by the singler 1, 2, 3 with good quality, in particular whether the bank note was transferred to the transport system in an oblique fashion. For this purpose control device 8 ascertains from the signals of sensors 10, at which place, at which time, in which state and in which orientation the bank note is recognized by sensors 10. Control device 8 links the information about place, time, state and orientation of the bank note and derives therefrom, whether a single, well singled bank note is present, or whether an error has occurred during the singling, or whether the bank note is faulty. Here the place means, at which position perpendicular to width B of the transport system, when viewed in transport direction T, the bank note is recognized by sensors 10. Time means, when the bank note is recognized by sensors 10. State means, whether sensors 10 recognize one or a plurality of bank notes, this also encompasses the recognition of folded bank notes. Orientation means, whether the bank note is transported past sensors 10 in parallel or obliquely in relation to its edges, when viewed in transport direction T.
As to be recognized from
In
On the basis of
In the following table there are stated the respective states immediately after the singling by the singler, i.e. how a bank note or a plurality of bank notes were grasped and singled by singler 1, 2, 3. In addition, it is stated, in which of the
The state represented in
Analogous to the case described before with reference to
In a further special case the bank note can be folded not exactly in the center of the bank note BN1 along its long axis, so that the bank note BN1 is single-layered along an area and is double-layered along the remainder. At the point in time after the singling, ultrasonic sensor 13 determines the presence of an either single-layer or double-layer bank note, so that a signal is generated, according to which a single pick or double pick is present. Light barriers 11 and 12 are not interrupted, so that they generate a signal, according to which there is no bank note. By logically connecting the signals of the sensors, control unit 8 generates the result, according to which a faulty singling has taken place.
The state represented in
Analogously, a faulty singling will be determined, if the folded bank note BN1, when viewed in transport direction T, is transported at the left edge of width B of the transport system.
The state represented in
The state represented in
Analogously, a faulty singling will be determined, when bank notes BN1 and BN2, when viewed in transport direction T, are transported at the right edge of width B of the transport system.
The state represented in
Analogously, a correct singling will be determined, when bank note BN1, when viewed in transport direction T, is transported at the right edge of width B of the transport system. Then light barrier 11 generates a signal, according to which there is a bank note, whereas light barrier 12 generates a signal, according to which there is no bank note. Ultrasonic sensor 13 generates a signal, according to which there is a single bank note.
A correct singling is also determined, when bank note BN1 takes up the entire width B of the transport system. Then light barriers 11 and 12 generate a signal, according to which there is a bank note. Ultrasonic sensor 13 generates a signal, according to which there is a single bank note.
The state represented in
The above-described logical connections of the signals of sensors 10 carried out by control device 8 were explained in
Sensors 10 are disposed, if possible, immediately after the singler 1, 2, 3, at a position at which the singling operation is completed. The distance between sensors 10 and singler 1, 2, 3 is advantageously chosen such that after the recognition of faulty singling operations there is sufficient time left to stop singler 1, 2, 3 such that faultily singled bank notes have not completely left the area of singler 1, 2, 3, i.e. the bank notes still partially protrude into the input area 6. The permissible distance between sensors 10 and singler 1, 2, 3, when viewed in transport direction T, substantially results from the speed of the transport system or singler 1, 2, 3 and the size of the smallest bank notes to be processed, when viewed in transport direction T.
When control device 8 determined a faulty singling operation, the control device 8 can introduce measures in order to prevent malfunctions in the processing of the bank notes.
For this purpose it can be provided that control device 8 stops motor 4. The bank notes faultily taken in then can be removed from the singler 1, 2, 3 by an operator.
Likewise, it is possible that control device 8 actuates motor 4 in such a way that motor 4 rotates singling element 1 for a certain time period in a second direction of rotation, which is opposite to the first direction of rotation 5, and then stops it. In this case the bank notes faultily taken in are moved out of singler 1, 2, 3 back into the input area 6 and can be removed from there by the operator.
Moreover, on a not shown display device of the bank note processing machine instructions generated by control device 8 can be displayed for the operator. If on the basis of the above-described monitoring the control device 8 concludes a faulty singling, an instruction can be displayed, which prompts the operator to remove the bank notes from the input area 6, to loosen them, so that e.g. bank notes sticking to each other are separated, and to again input the bank notes into the input area 6. Then the singling or processing of the bank notes can be re-started.
Sensors 11 and 12 have been described as individual light barriers so far. It is obvious that for each of the sensors 11 and 12 a plurality of light barriers can be used, which each can be disposed distributed over the section beginning at the edges of width B of the transport system and ending at the ultrasonic sensor 13. Instead of individual light barriers also linear arrays, so-called line arrays can be used. Instead of the ultrasonic sensor as sensor 13 there can be used any other sensor, which determines the thickness of the singled bank note, e.g. a mechanical or an optical thickness sensor.
Number | Date | Country | Kind |
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10 2007 060 080 | Dec 2007 | DE | national |
The benefit under 35 USC 119(e) of provisional application 61/091,884 filed Aug. 26, 2008 is claimed and the entirety of said application is incorporated herein by reference.
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