EP2334581A1 - Vorrichtung zum ausrichten von wertscheinen - Google Patents
Vorrichtung zum ausrichten von wertscheinenInfo
- Publication number
- EP2334581A1 EP2334581A1 EP09744987A EP09744987A EP2334581A1 EP 2334581 A1 EP2334581 A1 EP 2334581A1 EP 09744987 A EP09744987 A EP 09744987A EP 09744987 A EP09744987 A EP 09744987A EP 2334581 A1 EP2334581 A1 EP 2334581A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- transport
- rollers
- drive
- plane
- pressure
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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- 238000011156 evaluation Methods 0.000 description 5
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H9/00—Registering, e.g. orientating, articles; Devices therefor
- B65H9/10—Pusher and like movable registers; Pusher or gripper devices which move articles into registered position
- B65H9/103—Pusher and like movable registers; Pusher or gripper devices which move articles into registered position acting by friction or suction on the article for pushing or pulling it into registered position, e.g. against a stop
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H9/00—Registering, e.g. orientating, articles; Devices therefor
- B65H9/002—Registering, e.g. orientating, articles; Devices therefor changing orientation of sheet by only controlling movement of the forwarding means, i.e. without the use of stop or register wall
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2404/00—Parts for transporting or guiding the handled material
- B65H2404/10—Rollers
- B65H2404/14—Roller pairs
- B65H2404/144—Roller pairs with relative movement of the rollers to / from each other
- B65H2404/1442—Tripping arrangements
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2404/00—Parts for transporting or guiding the handled material
- B65H2404/60—Other elements in face contact with handled material
- B65H2404/64—Other elements in face contact with handled material reciprocating perpendicularly to face of material, e.g. pushing means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/10—Handled articles or webs
- B65H2701/19—Specific article or web
- B65H2701/1912—Banknotes, bills and cheques or the like
Definitions
- the invention relates to a device for aligning notes of value during the transport along a Trans ⁇ port range, for example, within an automatic teller machine or an automatic cash safe.
- the note of value may in particular be banknotes or checks, for example, which have been supplied to or taken from a cassette for storing notes of value.
- the apparatus includes at least one Transportele ⁇ ment for transporting the bill value along Trans ⁇ port range.
- the transport element can be designed in particular as a roll, roller or belt.
- the risk of paper jams is high, especially for used bank notes, as the stiffness of such notes decreases and the contaminants on the surface of the security Appear to increase. Especially with such used notes of value can lead to a Schiefeinzug or Schiefzug the value ⁇ notes during transport. As a result, the value notes can have a lateral offset and / or an angular offset to a desired nominal position.
- a device for aligning notes of value is known, for example, from the document DE 10 2004 060 191 A1.
- lateral guide elements such as those used for aligning and guiding single sheets in printers or copiers, are dispensed with.
- the use of mallli ⁇ chen guide elements due to the different stiffness and different edge quality of value would seem ⁇ lead to a misalignment and / or a disruption due to a paper jam.
- the object of the invention is to provide a device for aligning a bill of exchange, by which a lateral offset and / or angular offset of the bill of exchange can be corrected during its transport along a transport path in a simple manner.
- an angular offset of the value of ⁇ sheen and acting obliquely to a lying in the plane of transportation center axis of the transfer line at ⁇ driving force are formed on the banknote by the at least one first rotating transport member, by the at least one pressure element.
- the first rotating transport element is moved by the first drive unit to ⁇ at least to the transport plane or farther therethrough.
- the first rotating conveying element with the aid of these first to ⁇ drive unit is moved away from the transport plane.
- the movement generated by the drive unit of the first rotating transport element can be inclined to the conveying plane or along a plane intersecting the transport curved cam track orthogonal to the Trans ⁇ port level.
- a pressure force is exerted on the value note in a Anyakerin the pressure unit.
- the pressing force is applied orthogonally or obliquely to the transport ⁇ level on the note.
- the device may comprise at least a second rotie ⁇ rendes transport element, which generates a driving force parallel to the central axis or along the central axis on the note of value.
- a second drive ⁇ unit for moving the second rotating transport element to the transport plane out, preferably orthogonal or oblique to the transport plane or on a transport plane intersecting curved cam track, be provided.
- the first drive unit and the second drive unit are activated alternatively or alternately, so that either the first rotating transport element in the transport plane ei ⁇ ne driving force obliquely to one in the transport plane lying center axis of the transport path on the value ⁇ Schein exerts or the second rotating transport element exerts a driving force parallel to the central axis of Trans ⁇ port route on this note.
- the rotating transport elements may be transport elements particularly in ⁇ excessive and / or non-driven, preferably non-driven transport rollers.
- the transport plane is preferably limited by several trans ⁇ port elements, of which at least one part is arranged in the transport direction one behind the other. Further, the transport plane between a first limiting ⁇ plate and a second limiting plate may be disposed.
- the transport elements can be arranged and the boundary plates can be designed so that the Trans ⁇ portebene in the transport direction has a curved or curved course.
- the conveying direction of the f ⁇ th rotating transport element for transporting the value ⁇ sparkle in the transport plane runs obliquely to the center axis of the transport path, and when the conveying direction of the second rotating transport member is parallel to with ⁇ center axis of the transport path.
- first rotating transport element and / or the second rotating transport ⁇ element comprises at least one roller pair is particularly advantageous.
- the pair of roles includes a pinch roller and a drive roller.
- the on ⁇ pressure roller of the roller pair is movable transversely to the transport plane by means of the first on ⁇ drive unit or the second drive unit.
- the device has at least two, preferably eight roles ⁇ pairs, to correct a lateral offset of the bill of exchange. Characterized in each case four roller pairs to a value of the supply BEWE ⁇ bill in a first direction are provided obliquely to the center axis and with ⁇ four rollers to move in a second direction oblique to the central axis.
- both a lateral offset of the banknote in the transport direction to the right and to the left can be generated or corrected.
- the pressure rollers and the drive rollers of two pairs of rollers have a common axis of rotation, the rollers are each arranged at a distance on the rotation ⁇ axis, so that the value certificate is contacted by these pairs of rollers at two contact points, which have a distance from one another.
- each pair of roller pairs comprehensive transport units for generating a lateral offset in one direction obliquely to the central axis, ie, provided to a side edge of the transport path.
- the transport units have a distance to each other in the transport direction. Furthermore, it is advantageous to provide a sensor unit for determining a position of the banknote.
- At least one control unit which determined on the basis of the determined by the sensor unit Posi ⁇ tion of the note and a preset Sollpositi ⁇ on a side and / or angular offset of the banknote and the first drive unit and / or the second drive unit for moving at least one rotating transport element and / or the pressure unit such on ⁇ controls that a lateral and / or angular offset of the note is corrected after the transport of the bill along the transport path.
- the sensor unit can be ⁇ additionally perform an authenticity check of the value voucher,
- two roller pairs and two transport units for correcting the lateral offset are arranged mirror-symmetrically to a perpendicular to the transport plane through the central axis of the transport path extending With ⁇ center plane.
- the conveying direction of the first transport elements for correcting a lateral offset of the banknote which are arranged in the transport plane on a first side of an or ⁇ thogonal to the transport plane through the central axis of the transport path extending median plane, preferably each have the same first angle to je ⁇ Weils one in the transport plane lying orthogonal to the central axis of the transport route.
- the conveying directions of the roller pairs for correcting a lateral offset of the banknote which are arranged in the transport plane on the opposite second side of the median plane, preferably each have the same two ⁇ th angle to each one lying in the transport plane Orthogonal to the central axis of the transport route.
- the ERS ⁇ th angle and the second angle preferably have Densel ⁇ ben magnitude and opposite in sign. It is advantageous if the first angle has a value in the range of + 20 ° and + 35 °, preferably + 25 °, and if the two ⁇ te angle has a value in the range of -20 ° and -35 °, preferably ⁇ way -25 °, has.
- a sufficient lateral offset of the note value can be generated or corrected at a relatively high transport speed ⁇ in the transport direction in order to correct the position of the standard deviation value of the ticket at an ATM.
- this makes it possible to move a banknote by up to 3 cm in the transport plane in each direction transverse to the central axis of the transport path in order to correct a lateral offset of the banknote.
- the drive rollers serving for correcting the lateral offset roller pairs are rotatably ⁇ fixed on at least one shaft, wherein a drive unit drives the shaft via at least one belt.
- a drive unit drives the shaft via at least one belt.
- the at ⁇ drive rollers of two roller pairs on a common shaft are rotatably arranged, which is driven by the drive unit at ⁇ via the at least one strap.
- the at least one first drive unit for moving the pressure rollers of the roller pairs for correcting a lateral offset value of a bill moves the pressure rollers ⁇ optionally, in the direction of the drive rollers and in the opposite direction.
- the drive preferably takes place both actively in the direction of the drive rollers and actively in opposite directions. set direction, wherein the first drive unit is supplied both to the drive in the direction of the drive rollers as well as in the opposite direction external energy, preferably electrical energy.
- the construction and the function of the second drive unit preferably correspond to the structure and the function of the first drive unit.
- the drive unit for moving the pressure rollers of the roller pairs for correcting the lateral offset includes min ⁇ least one solenoid.
- a solenoid can be designed in particular ⁇ sondere than double lifting and is an inexpensive device for producing a Linearbewe ⁇ supply and has a relatively small size.
- the axes of rotation of the drive rollers are fixed in a preferred embodiment.
- the drive unit shifts the Drehach ⁇ sen of the pressure rollers in a movement of the pressure rollers obliquely or perpendicular to the transport plane or along a curved cam track in the direction of each opposing pinch roller.
- the second transport element may comprise at least one pair of transport belts.
- the transport belt pair comprises a driven transport belt and a non-driven transport belt. At least a portion of the non-driven conveyor belt in preferably orthogonal or oblique to the transport plane movable.
- a drive unit for moving the non-driven conveyor belt preferably comprises thereby ⁇ before at least one solenoid, preferably min ⁇ least a double solenoid.
- the device has at least two pressure units.
- the pressing units preferably have the same lateral distance from a perpendicular to the transport plane through the center Lach ⁇ se of the transport path extending middle plane, wherein the force directions of the exercisable by the pressing units on the banknote pressing forces parallel to each other and preferably also parallel to the central axis.
- the at least one pressure unit has a Antriebsein ⁇ standardized, which preferably comprises a lifting magnet that moves a pressing element of the pressing unit to the transport plane towards, preferably orthogonal moved to the transport plane and thereby exerts preferably a force orthogonal to the Trans ⁇ port level on the banknote.
- Antriebsein ⁇ standardized, which preferably comprises a lifting magnet that moves a pressing element of the pressing unit to the transport plane towards, preferably orthogonal moved to the transport plane and thereby exerts preferably a force orthogonal to the Trans ⁇ port level on the banknote.
- peripheral surface at least ei ⁇ ner arranged in the transport direction behind the pressure unit drive roller and / or at least one arranged in transport ⁇ direction behind the pressure unit pinch roller crowned. This can favor a rotational movement of the note value in the transport plane for correcting a Win ⁇ kelversatzes.
- a first limiting element bounding a transport region of the transport path is provided with a first contact region facing the transport region and / or a second limiting region delimiting the transport region of the transport path with a second contact region facing the transport region.
- the contact areas are preferably arranged gegenü ⁇ berrise and restrict the transport.
- At least one contact area has a plurality of spherical segment-shaped bulges which project convexly out of the contact area. Through these protruding bulges a surface contact of the value note is avoided with the contact area so that the banknotes do not adhere to the contact preparation ⁇ chen and / or are not electrostatically charged.
- the first and / or second contact region viewed in the transport direction, has a depression behind at least one drive and / or pressure roller.
- the recess is designed so that a for correcting the lateral offset ⁇ obliquely to the central axis extending conveying movement the value certificate not produced is disabled since ⁇ union paragraphs by the depression.
- the Vertie ⁇ Fung is formed so that one side edge of the note value can not hook on a lateral shoulder of the recess.
- a control unit the at least one first drive unit and / or the at least one second drive unit to Be ⁇ movement of the at least one rotating first and / or second Transport element at least to the transport plane out so that the determined side and / or angular offset of the note is corrected.
- the control unit determines on the basis of the determined Soversat ⁇ zes, in which period at least one pinch roller of a pair of rolls is pressed during transport of the note along the transport path against the pinch roller fashion ⁇ underlying drive rollers, with different pinch rollers different An horrzeitschreib can be fixed. Furthermore, based on the determined angular offset, the control unit can determine for which period of time at least one of the pressure units exerts a pressure force on this value note during transport of the security note along the transport path, wherein different proof periods can be defined for a plurality of pressure units.
- the contact region of the pressure elements of the pressure units which contacts the notes of value has a rubber-made element or a coating of the contact region made of rubber or another material with a high coefficient of adhesion.
- the directed in the direction of the transport plane end of the pressure units egg ⁇ ne hemispherical shape, so that the pressing force is punctiform or introduced over a small area in the bank note.
- the cover plate of the lower part to the places where has the pressing against the cover plate of the lower part drü ⁇ CKEN hemispherical elevations toward the transport level to prevent adhesion of the banknotes at the From ⁇ cover plate.
- the banknote can in particular be a banknote, a check, a voucher or a ticket.
- Figure 1 is a schematic representation of several transported along a transport path Wertschei ⁇ ne;
- Figure 2 is a bottom view of a schematic representation of a lower part of a device for aligning notes of value according to a first embodiment of the invention;
- Figure 3 is a side view of the lower part of Figure 2 with a view of a first side part
- FIG. 4 shows a further side view of the lower part according to FIGS. 2 and 3 of the side opposite the side shown in FIG. 3;
- Figure 5 is a plan view of the lower part according to Figu ⁇ ren 2 to 4;
- FIG. 6 shows a perspective view of the lower part according to FIGS. 2 to 5;
- Figure 7 is a schematic perspective view ei ⁇ nes upper part of the device for aligning notes of value in a plan view and a bottom view with respect to the mounting position of the upper ⁇ part;
- Figure 8 is a first schematic perspective illustration ⁇ development of the upper part of the device for aligning notes of value according to Figure 7 with a view on top of the upper part in relation to the installation ⁇ position of the upper part, facing in Trans ⁇ port direction of the bank notes;
- FIGS. 7 to 8 shows a detail of a schematic perspective view of the upper part according to FIGS. 7 to 8 with a view of the upper side of the upper part, looking in the direction opposite to the transport direction of the bank notes;
- Figure 11 is a plan view of the upper part of the device for aligning notes of the figures 7 to 10;
- Figure 12 is a schematic perspective view of the upper part of the device for aligning bank notes according to Figures 7 to 11 with a view of the top of the shell and viewing direction against the transport direction of the bank notes;
- Figure 13 is a diagram of the control of pinch rollers for generating or correcting a lateral offset of the bill of 30 mm;
- Figure 14 is a diagram of the control of the pressure rollers for generating or correcting a lateral offset of the banknote of 6 mm;
- Figure 15 is a schematic representation of a device for aligning bank notes with a pair of transport belts according to a second embodiment of the invention.
- FIG. 1 shows a schematic representation of several long ent ⁇ a transport plane 10 arranged notes of value 12 to 18 according to an embodiment of the invention is Darge ⁇ represents.
- the banknotes 12 to 18 are transported by means of transport means, not shown, such as rollers, rollers, belts and / or switches along the transport path 10 in the transport direction Pl.
- the dashed line 20 indicates the central axis of the transport path 10.
- the value ⁇ seem 12 to 18 are transported in a through Transportstre ⁇ bridge 10 formed transport plane.
- Be ⁇ 10th The notes of value 12 to 18 should have a desired position for the transport path 10. From this target position, the positions of the notes 12 to 18 should differ only within small tolerances.
- the longitudinal sides of the value document which 12 to 18 oriented orthogonally to the transport direction Pl and the short With ⁇ center axis of the value of bill 12 to 18 is on the center Lach ⁇ se 20 of the transport section 10.
- the long sides of the banknotes 12 to 18 are at least ⁇ aligned in the present embodiment in the desired position substantially transverse to the transport direction Pl.
- Such an orientation of the long sides of the bank notes 12 to 18 orthogonal to the trans ⁇ port direction Pl is also referred to as long-side-first (LSF) - orientation.
- LSF long-side-first
- the value check unit is arranged in the transporting direction Pl upstream of the apparatus for aligning the notes 12 to 18.
- Deviations of the position of the notes of value 12 to 18 from the target position can ⁇ appear 12 to 18 out of notes cassette with poorly stacked notes of value 12 to 18, wherein an incorrect input of value 12 to 18 by a customer and / or at a particular during the removal of value Schiefzug of notes of value 12 to 18 during insertion or during transport along the Transportstre ⁇ bridge 10 occur.
- the orientation of the notes 12 to 18 in stacks for issuing the notes 12 to 18 as Bün ⁇ del or storage of notes 12 to 18 as a stack, for example in a note cassette improved.
- the notes 12 to 18 can be stored to save space.
- the notes of value 12 to 18 can be issued to a customer in an attractive and convenient manner as an ordered bundle.
- the value note 14 shown in FIG. 1 is not in the set position. Although its longitudinal sides are oriented perpendicular to the transport direction Pl, its short sides center axis is not on the central axis 20 of the Trans ⁇ port range 10.
- the short central axis of the value of bill 14 is offset to the right so that the banknote but 14 has no angular offset a page offset.
- the note 14 must therefore be moved to the left until the short central axis of the note 14 is on the central axis ⁇ 20 of the transport plane 10 to bring the note 14 in target position.
- the note 12 has approximately the same lateral offset transversely to the central axis 20 of the transport path 10 as the note 14. However, the note 12 is additionally rotated by an angle ⁇ to an orthogonal to the central axis 20 of the transport path 10. Such a deviation by ei ⁇ nen angle from the desired position is also referred to as angular offset.
- the security paper 12 has to be rotated - ⁇ with the aid of the device for aligning notes of value 12 to 18 by the angle and in addition, as long as seen in the transport ⁇ direction Pl will be shifted to the left, to the short center axis of the value of bill 12 on the central axis 20 of the transport section 10 is to bring the note 12 in target position.
- FIG. 2 shows a bottom view of a schematic representation of a lower part 22 of the already mentioned device for aligning bank notes 12 to 18.
- the device for issuing bank notes 12 to 18 is installed horizontally in an ATM such that the section of the transport path 10 provided by the device is aligned horizontally.
- the provided by the device portion of the transport path 10 may also have a different orientation, in ⁇ sbesondere provided by the device portion of the transport path 10 may be vertically aligned. Alternatively, any other installation position is possible. Elements with the same structure or the same function have the same reference numerals.
- the direction of rotation of the drive rollers 24 to 36 causes a transport of notes of value 12 to 18 in the transport direction Pl parallel to or along the central axis 20.
- the drive rollers 24 to 28 are rotating ⁇ fixed, stationary and not pivotally mounted on a first drive shaft 54.
- the drive roller 26 is arranged on the first drive shaft 54 such that the center Lach ⁇ se 20 of the transport plane is located in the radial center plane of the drive roller 26 10th
- the drive rollers 24 and 28 are arranged mirror-symmetrically to a plane which is arranged orthogo ⁇ nal to the transport plane 10 and the central axis ⁇ 20 contains.
- the drive rollers 24 and 28 have the drive roller 26 each the same distance.
- the drive rollers 30 and 32 are rotatable, stationary and non-pivotable on a second drive shaft 56 angeord ⁇ net.
- the drive rollers 30 and 32 have the same lateral distance to the central axis 20 of the transport plane 10.
- the drive rollers 34 and 36 are rotatable, stationary and non-pivotable on a third drive shaft 58 angeord ⁇ net, wherein the drive rollers 34 and 36 also on the drive shaft 58th are arranged mirror-symmetrically to a plane angeord ⁇ net, which is arranged orthogonal to the transport plane 10 and in which the central axis 20 is located.
- the distance of the drive rollers 34 and 36 is less than the distance between the drive rollers 30 and 32 to each other.
- the distance between the drive rollers 30 and 32 to each other is again less than the distance of the drive rollers 24 and 28 to each other.
- the distance of the outer drive rollers in the transport direction Pl of the notes 12 to 18 in the apparatus for aligning the notes 12 to 18 decreases downstream.
- the drive rollers 38 and 40 are provided with a fourth drive shaft 70, the drive rollers 42 and 44 with a fifth drive shaft 72, the drive rollers 50 and 52 with a sixth drive shaft 74 and the drive rollers 46 and 48 with a seventh drive shaft 76 each local, rotating and not pivotally connected.
- the drive rollers 38 and 40, the drive rollers 42 and 44, the drive rollers 46 and 48 and the drive rollers 50 and 52 each have the same distance from each other.
- the drive shafts 54 to 58 are orthogonal to the transport ⁇ direction Pl and thus arranged orthogonal to the central axis 20 of the transport plane 10.
- the drive shafts 70 to 76 on the other hand have a non-zero angle to an orthogonal to the central axis 20 of the transport plane 10.
- the drive shafts 70, 72 and 74, 76 each have the same angle to an orthogonal to the central axis 20.
- the Mit ⁇ telachse 20 divides the transport plane 10 in two sub-levels.
- the drive shafts 70 and 76 arranged in one of these part planes preferably have the same angle to one orthogonal to the central axis 20 of the transport plane 10.
- the drive shafts 72 and 74 disposed in the other part plane of the trans ⁇ portebene 10 have the same angle to each of an orthogonal to the central axis 20 of the transport plane 10.
- the drive shafts 70 and 72 so ⁇ as the drive shafts 74 and 76 are each arranged mirror-image ⁇ Lich to the central axis 20 of the transport plane tenth
- the drive rollers 38 and 44, 40 and 42, 46 and 50, 48 and 52 are each arranged in mirror image to the central axis 20 of the transport plane 10.
- the angles of the drive shafts 70 and 72 and the angles of the drive shafts 74, 76 to each orthogonal to the central axis 20 of the transport plane 10 are equal in magnitude, but have a reverse sign.
- this angle of the drive shafts is 70 to 76 + 25 ° or - 25 °. It is also advantageous if the distance of the drive roller 40 to the drive roller 42 is less than the distance of the drive roller 48 to the drive roller ⁇ 52.
- the lower part 22 comprises three further Antriebswel ⁇ len, namely an eighth drive shaft 60, a ninth drive shaft ⁇ 62 and a tenth drive shaft 64.
- These drive shafts 60 to 64 are arranged orthogonal to the transport direction Pl and parallel to the transport plane 10. So ⁇ probably the drive shafts 54 to 58 and the drive shaft len 60 to 64 are rotatably mounted in a first side part 66 and the first side part 66 opposite second side part 68.
- the side parts 66 and 68 are arranged parallel to one another and orthogonal to the transport plane 10.
- the side parts 66 and 68 preferably have the same distance to the central axis 20 of the transport plane 10th
- a first gear 82 In the direction of the side facing away from the first side part 66 of the second side part 68 is on the first Antriebswel ⁇ le 54, a first gear 82, disposed on the tenth drive shaft 64, a second gear 84 and on the second drive shaft 56, a third gear 86.
- the gears 82 to 86 are each rotatably and fixedly connected to the drive shafts 54, 64 and 56. Via the gears 82 to 86, a first toothed belt 80 is guided. Furthermore, the first toothed belt 80 is guided over a deflection roller 126.
- the order ⁇ steering roller 126 is connected via an axis, not shown, in the second side part 68 and rotatably mounted on this axis.
- the deflection roller 126 is arranged on the side of the second side part 68 facing away from the first side part 66.
- gears 110, 104, 88, 90 rotatably and fixedly arranged on the tenth drive shaft 64.
- the gears 88 and 90 are arranged mirror-symmetrically to the central axis 20 of the transport plane 10.
- On the nine ⁇ th drive shaft 62 three further gears 92, 94, 116 are arranged.
- the gears 92, 94, 116 are rotatably and fixedly connected to the ninth drive shaft 62.
- the gears 92 and 94 are in turn arranged mirror-symmetrically to the central axis 20 of the transport plane 10.
- Farther are on the eighth drive shaft 60, two more gears 112 and 115 arranged and rotatably and fixedly connected to the eighth drive shaft 60.
- a tooth belt is guided ⁇ 114th Further, via the gear 104, which is arranged on the tenth drive shaft 64, and arranged on the ninth drive shaft 62 gear 106, a toothed belt 108 is guided.
- the gear 115 of the eighth drive shaft 60 is connected to the gear 116 of the ninth to ⁇ drive shaft 62 in engagement.
- a gear 128 and on the third drive shaft 58 are arranged on the second drive shaft 56.
- the gear 128 is rotatably and stationary ⁇ fixed to the second drive shaft 56 and the gear 130 is rotatably and fixedly connected to the third drive shaft 58 to ⁇ .
- Via the gears 128 and 130, a toothed belt 132 is guided.
- the lower part 22 comprises a further transport unit 127.
- This further transport unit 127 comprises an eleventh drive shaft 123, on which a total of eight rollers 124a to 124h are arranged.
- the rollers 124a to 124h are rotatably and fixedly connected to the eleventh drive shaft 123.
- the eleventh drive shaft 123 is rotatably supported in the side parts 66 and 68.
- a small gear 120 and a large ⁇ SLI gear 144 are located on the eleven ⁇ th driving shaft 123rd
- a small gear 118 and rotatably connected to the ninth drive shaft 62 is disposed on the side facing away from the first side part 66 of the second side part 68.
- a toothed belt 122 is guided.
- the toothed belt 122 is, in addition to the small gears 120 and 118, guided over a Umlenkrol ⁇ le 140.
- the deflection roller 140 is covered by the toothed belt 122 in FIG. The exact position of the deflection roller 140 can be seen in FIG.
- the further transport unit 127 comprises a switch which has a shaft 136, on which a total of 17 pivotable about the shaft 136 guide elements are arranged rotationally fixed.
- a guide element is designated by the reference numeral 138 by way of example. Via a solenoid 134 and a lever, the shaft 136 can be rotated and the guide elements 138 are pivoted.
- the fourth drive shaft 70 is connected via a toothed belt 100 to the gear 88. Further, the fifth on ⁇ drive shaft 72, the sixth drive shaft 74 is connected via a toothed belt 98 with the gear 90, the seventh drive shaft 76 via a toothed belt 102 with the toothed wheel 92 and a toothed belt 96 with the gear 94th
- the drive shafts 70 to 76 are rotatably mounted on a not illustrated in Figure 2 Darge ⁇ cover plate. In the other figures, the cover plate with the reference numeral 146 be ⁇ draws.
- the storage of the drive shafts 70 to 76 on the frame takes place for example via bearing blocks, which are connected by suitable screws 78a to 78m with the cover plate 146.
- the drive of one or more drive shafts 54 to 64; 70 to 76; 123 can be done by one or more electric motors, not shown.
- FIG. 3 shows a side view of the lower part 22 according to FIG. 2 with a view of the first side part 66.
- FIG. 4 shows a side view of the lower part 22 according to FIGS. 2 and 3 with a view of the second side part 68.
- the toothed belt 122 is guided via the gears 118 and 120 and in addition via the deflection roller 140.
- the Guide roller 140 is rotatably connected via an axis with the second side part 68.
- the deflection roller 140 is arranged on the side of the second side part 68 facing away from the first side part 66.
- FIG. 5 shows a plan view of the lower part 22 according to FIGS. 2 to 4.
- the lower part 22 has a cover plate 146, which additionally limits the transport path 10.
- One of these spherical segment-like bulges is identified by the reference numeral 148 by way of example.
- the spherical segment-like bulges 148 on the surface of the Ab ⁇ cover plate 146 reduce the friction of the bank notes 12 to 18 with the cover plate 146 and caused by the friction electrostatic charge of the banknotes 12 to 18.
- the bulges 148 prevents the bank notes 12th to adhere to the cover plate 146. This in turn causes the transport of notes of value 12 to 18 take place unhindered and alignment of the notes of value 12 to 18 can be carried out without interference using the device according to the invention.
- the cover plate 146 is dimensioned such that it covers the entire area between the two side parts 66 and 68.
- the cover plate 146 has recesses through which the drive rollers 24 to 52 through the cover plate 146 ra ⁇ conditions and protrude from this.
- the drive rollers 24 to 52 preferably project further into the transport path 10
- the peripheral surfaces of the drive rollers 24 to 52 contact the transport plane 10, so that the drive rollers 24 to 52 contact the notes of value 12 to 18 during their transport through the device.
- the cover plate 146 has seen in the transport direction Pl of the value ⁇ notes 12 to 18 behind each drive roller 24 to 36 each have a wedge-shaped recess 154a to 154g.
- the recesses 154a to 154g have their lowest point ever ⁇ seen in the transport direction Pl behind the respective drive roller 24 to 36 and rise evenly up to the height of the cover plate 146 at.
- the width of the recesses 154a to 154g increases linearly in the transport direction Pl.
- the cover plate 146 has a recess 156a to 156h behind each drive roller 38 to 52.
- the Vertie ⁇ levies 156a to 156h have seen their deepest point in Trans ⁇ port direction Pl immediately behind the drive rollers 38 to 52.
- the depth of the recesses 156a to 156h increases linearly up to the height of the cover plate 146.
- currency ⁇ rend the width of the Recess 154a to 154g uniformly increases in both Rich ⁇ , the width of the recess 156a to 156h each only in one direction, namely on the side facing away from the median plane, to.
- the depressions 154a to 154g and the depressions 156a to 156h serve not to interfere with a lateral movement of the bank notes 12 to 18 in the correction of a lateral offset, so that they in particular no lateral stop for the obliquely transported to the transport direction Pl notes 12 to 18 form.
- the cover plate 146 has four further recesses 158a, 158b, 160a, 160b. In these depressions is at least one respective sensor element 150a, 150b, 152a, 152b arranged ⁇ .
- sensor elements 150a, 150b, 152a, 152b are used as sensor elements 150a, 150b, 152a, 152b.
- the sensor elements 150a, 150b arranged in the transport direction Pl at the beginning of the transport path 10 serve to detect the position and position of the bank notes 12 to 18 when they pass through the device for aligning bank notes 12 to 18.
- the sensor elements 150a to 150b, 152a, 152b complementary sensor elements in a lower part 22 opposite upper part opposite arranged, as will be explained in more detail below.
- he testified ⁇ signals are evaluated in a non-illustrated evaluation unit and there are a possible pages or a current lateral and / or angular misalignment and / or determined paper jam of the supplied bank notes 12 to 18 and / or a value note tracking carried out.
- drive units of alignment elements of the illustrated device for aligning bank notes 12 to 18 can be driven in the following.
- Sensorele ⁇ elements 152a, 152b can be checked then whether a erfor ⁇ derliche reduce or eliminate the position and / or angular displacement to the location of the sensor elements 152a, 152b occurs as expected.
- the control of the downstream direction of the sensor elements 152a, 152b in the transport direction P1 can still be followed by alignment elements for reducing or eliminating a any angular and / or lateral offset of the Wertschei ⁇ ne 12 to 18 are adjusted accordingly.
- the cover plate 146 has two further depressions 162a, 162b, which, viewed in the transport direction P1, are arranged downstream of the drive rollers 36, 34. At least one sensor element 164a, 164b are arranged in each of the depressions 162a, 162b. Also, the sensor elements 164a, 164b are used to detect the position and location of the notes of value 12 to 18 and for detecting a paper jam and Nachver ⁇ succession of notes 12 to 18. With the aid of the sensor elements 164a and 164b or by not further Ask ⁇ Asked Signals generated sensor elements can be determined whether the banknotes have 12 to 18 after passing through the device for aligning value certificate 12 to 18, the required target position.
- the banknote can 12 to 18 (not shown) depending on the design of the device for aligning notes of value 12 to 18 via appropriate transport paths ported trans ⁇ and the device for aligning notes of value are fed again. Characterized this value may seem ⁇ 12 to 18 run through again, with the aim to achieve the desired target position in a second pass, the device for aligning notes of value 12 to 18. This process can be repeated until the banknote 12 to 18 has reached the required target position.
- the cover plate 146 has two further recesses 166a, 166b.
- the recesses 158a, the recess 158b, the recess 160a and the recess 160b, the recess 162a and the recess 162b and the recess 166a and the recess 166b are each arranged mirror-symmetrically to the central axis 20 of the transport plane 10.
- FIG. 6 shows a perspective schematic depicting ⁇ development of the lower part 22 is shown by Figures 2 to 5th
- FIG 7 a schematic perspective illustration ⁇ development of an upper part 200 of the apparatus for aligning notes of value 12 to 18 with a view based on the underside of the upper part 200 is shown in the embodiment ge ⁇ selected installation position.
- the upper part 200 comprises IMP EXP ⁇ including 15 pinch rollers 224 to 252.
- the pressure rollers are 224 to 252 in such a manner in the upper part 200 disposed so that when correctly installed the lower part 22 and upper part 200 in an ATM or in an automatic cash safe in each case a pressure roller 224-252 in each case arranged one in the Un ⁇ terteil 22 and projecting from the cover plate 146 of the lower part 22 drive roller 24 to 52 opposite ⁇ lying.
- the pressure rollers 224 to 252 are not driven and therefore only rotate when they hinderlie- to the respective opposite driving roller 24 to 52 or at one between the pinch roller jewei ⁇ time 224-252 and this Present drive roller 24 to 52 arranged note 12 to be pressed 18.
- a drive roller 24 to 52 and the respective opposite pinch roller 224 to 252 is also referred to as a pair of rollers.
- the shell 200 has a cover plate 254.
- the cover plate 254 from ⁇ has several spherical segment-shaped convexities 256 that protrude in the direction of the transport plane 10 concave from the cover plate 254th
- the spherical segment-shaped bulges 148 of the cover plate 146 of the lower part 22 also serve the spherical segment-shaped bulges 256 of the cover plate 254 of the upper part 200 to reduce the Rei ⁇ shift between the value of notes 12 to 18 and the cover plate 254 during transportation of the bank notes 12 to 18 in Transport direction Pl.
- the cover plate 146 has the cover plate 254 at the locations of the pressure rollers 224 to 252 corresponding recesses.
- the cover plate 254 has seen in the transport direction Pl, behind the pinch rollers 224 to 252 each have a recess 258a to 258g, 260a to 26Of, 262a, 262b.
- the recesses 258a to 258g, 260a to 248 provided behind the pinch rollers 224 to 252 26Of, 262a, 262b each have a mirrored on the transport plane 10 shape as the opposite recesses 154a to 154g, 156a to 156h in the cover plate 146 of the lower part 22, which behind the pinch roller 224 to 252 respectively opposite drive roller 24 to 52 be ⁇ Find .
- the cover plate 254 of the top 200 has eight further recesses 266a, 266b, 270a, 270b, 264a, 264b, 274a and 274b.
- at least one sensor element 268a, 268b is arranged depending ⁇ wells.
- the notes 12 to 18 are determined.
- optical sensor elements are preferably incorporated ⁇ sets.
- two further sensor elements 272a, 272b are arranged in the depressions 270a, 270b.
- Sen ⁇ sor element 272a, 272b and the sensor elements 152a, 152b the position and location of the bank notes 12 to 18, which they have passed through the first alignment area of the device for aligning notes of value 12 to 18 by ⁇ , determined and / or a tracking of the notes 12 to Ii are performed.
- any possible angular and / or lateral offset of the bank notes 12 to 18 can be ascertained or the tracking of the bank notes 12 to 18 can be carried out.
- two further sensor elements 276a, 276b are arranged.
- the position and location of the notes 12 to 18 after passing through the device for aligning notes 12 to 18 determined and tracking the notes 12 to 18 are performed. Furthermore, it can be determined with the aid of the evaluation unit, whether the banknotes 12 to 18 are in the desired position or whether there is still an angular and / or lateral offset.
- a banknote 12 to 18 still have an angular and / or lateral offset, the banknote 12 to 18, as already described, can be returned to the device for aligning bank notes 12 to 18 via corresponding transport links, so that these bank notes 12 to 18 are the same Before ⁇ direction to align notes of value 12 to 18 go through again. This process can be repeated for as long as until the banknote 12 to 18 is in the debit position.
- a pressure element of a pressure unit 278a, 278b can be moved toward the transport plane 10 in each case.
- a pressing force can be applied to a banknote 12 to 18, when this is located in the pressing portion of the pressing unit 278a 278b, are exerted transversely to the transport plane tenth
- the banknote 12 to 18 is decelerated or stopped in the part plane of the transporting plane 10 in which the pressing element 278a or 278b is exerted on the pressing force transversely to the transporting direction 10, while the banknote 12 to 18 at least in the other part level of the transport plane 10 is transported further in the transport direction Pl with substantially unchanged speed.
- the pressure ⁇ or contact area of the pressing units 278a, 278b, with which the respective pressure-exerting unit 278a, 278b the surface of a bill has contacted value 12 to 18 preferably has a surface with a high static friction.
- the contact area of the pressure elements of the pressure units 278a, 278b has a rubber-made element or a coating of rubber.
- the 10 ge ⁇ directed towards the plane of transport the end of the pressing units 278a, 278b has a schku ⁇ gel form, so that the pressing forceIch- tikku ⁇ gel form, so that the pressing forceIch- tikku ⁇ mig or over a small area in the banknote is headed.
- a pressing force for delaying or stopping the banknote 12 to 18 can be introduced into the banknote 12 to 18 such that a rotation of the note of value 12 to 18 about the point of contact with the pressure element 278a, 278b and the counter-pressure element during activation only ei ⁇ ner pressure unit 278 a, 278 b is not or only slightly behin ⁇ changed.
- the distances Y between two after ⁇ each transported along the transport path 10 notes 12 to 18 can be changed.
- Both the pressure rollers 224 to 252 and the pressing units 278a, 278b can with the aid of drive units for moving the pressure rollers 224 to 252 or the pressing units 278a, 278b to the transport plane 10 moved toward the ⁇ .
- the pressure rollers 224 to 252 depending on the activation of the respective drive unit in the direction of the drive rollers 24 to 52 and again moved away from the drive rollers 24 to 52. If one of the pressure rollers 224 to 252 has been moved to the opposite roller 24 to 52, they touch the respective drive roller 24 to 52 and thus can on a between the drive roller 24 to 52 and the pinch roller 224 to 252 arranged banknote 12 to 18 a force across exercise to the transport level 10.
- the drive units for moving the pinch rollers 224 to 252 and the pressure units 278a, 278b will be described in more detail in the following figures.
- a smaller mass must be moved. If the drive rollers 124 to 152 are moved, it would be necessary to move larger masses due to the drive elements coupled to the drive rollers. This would result in a slower mechanical system and longer reaction times would be required. Furthermore, it would be structurally much more expensive to move the drive rollers 124 to 152.
- FIG 8 a schematic perspective illustration ⁇ development of the upper part 200 of the apparatus for aligning notes of value 12 to 18 of Figure 7 with a view on top of the upper part 200 and the viewing direction in the transport direction Pl notes of value 12 to 18 is shown.
- the cover plate 254 of the upper part 200 has at the transport plane 10 from ⁇ facing side a plurality of stiffening webs and mounting ⁇ points for other components of the upper part 200.
- One of these webs is exemplified by the reference numeral 300 gekenn ⁇ draws.
- the pressure rollers 224 to 228 are arranged in a holding and guiding element 302 and have a common rotary ⁇ axis.
- the pressure rollers 224 to 228 are rotatably mounted in the holding and guiding element 302 in each case about the axis of rotation Gela ⁇ , wherein the axis of rotation have a fixed relative position to Hal ⁇ te and guide member 302 and wherein the An horrrol ⁇ len and the holding and guiding element 302 are not pivotable about an axis orthogonal to the transport plane 10 axis.
- the holding element 302 is connected to the cover plate 254 of the upper part 200 via pivot bearings.
- the ends of the holding and guiding element 302 are each connected to an armature 308, 310 of a lifting magnet 304, 306.
- the lifting magnet 304 comprises two coils 312, 313 and egg ⁇ NEN armature 308.
- the armature 308 is connected to the holding and guiding element 302 to move it out by a Schwenkbe ⁇ movement on the pivot bearing from the outside of the cover plate 254 or in the opposite direction continue to move into the cover plate 254.
- the conveying direction of the pressure rollers 224 to 228 remains parallel to the central axis 20.
- the two coils 312, 313 of the solenoid 304 are each al ⁇ ternatively connected by a control unit with a voltage source to effect a ge ⁇ wished movement of the armature 308, 310.
- the hub ⁇ magnets 304, 306 have at least one permanent magnet which serves the armature 308 to maintain in an end position 308, preferably in the position in which the are not pressed with the Hubmagne ⁇ th 304, 306 against the opposing drive rollers , If current flows through one of the two coils 312, 313, the armature 308 is moved along its longitudinal axis towards the lower part 22 or away from it.
- a solenoid 304, 306 can be used, which has only one coil 312, 313.
- the armature of the lifting magnet and the armature coupled to the pinch roller is moved in the direction of gege ⁇ nüberieri drive roller.
- the lifting magnet then has a return spring, which is activated when the power supply is interrupted. flow back through the coil, the armature in an initial position ⁇ , in which the Anyakrol ⁇ le coupled to the armature does not contact the opposite drive roller.
- the structure and function of the solenoid 306 are identical to the structure of the solenoid 304. If the armature 308, 310 of the lifting magnets 304, 306 raised, the holding and guiding element 302 is pivoted upwards, so that the pressure rollers 224 to 228 of the Transport level 10 and the drive rollers 24 to 28 are moved away. Thus, the pinch rollers 224 to 228 no longer exert a pressing force on a transported in the transport plane 10 in the transport direction Pl banknote 12 to 18 or on the opposite drive rollers 24 to 28.
- solenoids 314 to 322b are identically constructed as the solenoids 304, 306.
- the solenoid 314 is connected to a receiving unit (not shown) verbun ⁇ the, in which the pinch roller 232 is rotatably mounted about its axis of rotation.
- the lifting magnet 314 the pressure roller 232 can be moved together with the receiving unit orthogonal or alternatively obliquely to the transport plane 10.
- the armature 317 of the solenoid 316 is connected to a receiving unit (not shown), in which the on ⁇ pressure roller 230 is rotatably mounted. By the solenoid 316.
- the pressure roller 230 can be moved together with the on ⁇ taking unit orthogonally, or alternatively, obliquely to the Trans ⁇ port level 10th
- the upper part 200 comprises a receiving unit 366, in which the pressure rollers 238 and 240 are each rotatably mounted.
- the receiving unit 366 to the transport plane 10 toward and away from the movable with the cover plate 254 of the upper part 200 connected.
- the receiving unit 366 is connected to the armature 321 of a lifting magnet 320.
- the receiving unit 366 is moved Wegbe ⁇ from the transport plane tenth
- the pressure rollers 238 and 240 are moved away from the transport plane 10 and lifted by the opposing pinch rollers 38, 40.
- the pinch rollers 242 to 252 are coupled to the Hubmagne ⁇ th 318 to 322.
- the contact pressure roll ⁇ 242-252 moves orthogonally or obliquely to Transportebe ⁇ ne 10, that is raised or lowered, are.
- the armatures 341, 343 of the lifting magnets 324, 326 are fixedly connected to the on ⁇ pressure elements of the pressure units 278a, 278b or alternatively form these pressure elements. Due to the solenoids 324, 326, the pressing contact pressure of the ⁇ units 278a may 278b transversely to the transport plane 10 moves ⁇ the.
- the structure of the solenoids 324, 326 differs from the structure of the solenoids 304 to 322, characterized in that the solenoids 324, 326 only one coil 340, 346 to egg ⁇ ner movement of the pressure elements out of the cover plate 254 out to the transport plane 10 and in have opposite direction.
- a movement of the pressure elements of the pressure units 278a, 278b in the opposite direction is generated by the spring force of a respective return spring 342, 344, which is opposite to a movement caused by the coils 340, 346 movement of the armature 341, 343 at a currentless coil 340, 346 causes.
- the return adjusting springs 342, 344 are on top of the lifting magnets
- FIG. 9 shows a schematic perspective illustration ⁇ development of the upper part 200 of the apparatus for aligning notes of value 12 to 18 of Figures 7 to 8 with view of the top of the upper part 200 and the viewing direction is ent shown ⁇ against the transport direction Pl.
- Another holding and guiding element 348 is pivotally connected to the cover plate ⁇ 254 of the upper part 200.
- the non-visible pressure rollers 234, 236 are rotatable, stationary and not pivotable about an orthogonal to the trans ⁇ portebene 10 axis.
- the holding and guiding element 348 is connected to the anchors of two lifting magnets, not shown. With the aid of these lifting magnets, the holding and guiding element 348 can be moved toward and away from the opposing pinch rollers 34, 36, so that the pinch rollers 234, 236 can also be moved substantially orthogonally or alternatively at an angle to the transport plane 10.
- Figure 10 is a section of the upper part 200 of the pre ⁇ direction for aligning notes of value 12 to 18 after the Figures 7 to 9 with a view of the top of the upper part 200 and viewing direction opposite to the transport direction Pl of the notes 12 to 18 shown.
- the holding and guiding ⁇ element 348 has been removed in the representation of Figure 10 so that the pinch rollers 234, 236 are visible.
- FIG 11 is a plan view of the upper part 200 of the pre ⁇ direction for aligning notes of value 12 to 18 shown.
- the upper part 200 comprises a further holding and mecanicsele ⁇ element 368.
- the pinch rollers 230 and 232 are rotatably mounted and not pivotable about an axis orthogonal to the transport plane 10 axis.
- the retaining member 368 may be on the path not shown Hub ⁇ magnets 314 and 316 from the transport plane 10 and the transport plane 10 are pivoted toward.
- the upper part 200 comprises two further shareholdersein ⁇ units 362, 364.
- the pinch rollers 242 and 244 are rotatably and non-pivotally mounted about an orthogonal axis to the transport plane 10.
- the pressure rollers 250 and 252 are rotatable and not pivotable about an orthogonal to the transport plane 10 ⁇ axis.
- the receiving unit 364 can weggeschwenkt about the lifting magnet 321, not shown in Figure 11 from the transport plane 10 or the transport ⁇ level 10.
- the receiving unit 362 can be pivoted away via the lifting magnet 322b (not shown in FIG. 11) from the transport plane 10 or to the transport plane 10.
- FIG 12 a schematic perspective illustration ⁇ development of the upper part 200 of the apparatus for aligning notes of value 12 to 18 of Figures 7 to 11 with a view on top of the upper part 200 and the viewing direction is ent ⁇ plotted against the transport direction Pl notes of value 12 to 18 ,
- the armature of the solenoid 322b is shown, so that the coupled to the anchor on ⁇ taking unit 356 for receiving the pressure rollers 246, is visible 248th
- the complete lifting magnet 326 is a ⁇ finally the armature 352 is not shown, so that in Fi gur ⁇ 12 only the pressing member 357 is seen, which is fixedly connected to the armature 354 of the solenoid 326 in the ready state.
- the pivoting movement of the receiving unit 356 is guided by the guide elements 358 and 360.
- the guide elements 358 and 360 in turn are fixedly connected to the cover plate 254 of the upper part 200. If the on ⁇ ker 354 of the solenoid 326 moves in a corresponding activation of the lifting magnet 326 upward, the recording unit 356 is moved together with the armature 354 also upwards. Together with the receiving unit 356 ⁇ thereby the pressure rollers 246 and 248 moves upwardly away from the transport plane 10.
- at least one guide member for guiding the movement of the respective receiving unit is provided.
- FIG. 13 shows a diagram with the profile of the movement of the pressure rollers 224 to 252 caused by the lifting magnets for a lateral offset of 30 mm to be generated or corrected.
- the lateral offset is already before the delivery of the banknote 12 to 18 with the aid of a sensor unit arranged upstream of the device for adjusting banknotes, preferably with the aid of already mentioned authenticity testing unit, determined and transmitted to a control unit. With the help of STEU ⁇ er bain the required control of the stroke ⁇ magnets is then determined.
- the drive rollers 24 to 52 are permanently driven at the same speed.
- a pinch roller 224 to 252 is pressed with a force across the transport plane 10 against the opposite drive roller 24 to 52. If there is a banknote 12 to 18 between the pressure roller 224 to 252 in the pressure position and opposing drive roller 24 to 52, this value note is pressed by the pressure roller 224 to 252 against the drive roller 24 to 54.
- the pairs of rollers formed by the pinch rollers 224 to 252 and drive rollers 24 to 52 can be classified into two groups.
- the pairs of rollers formed by the pinch rollers 224 to 236 and the drive rollers 24 to 36 serve for straight-ahead transport of the notes 12 to 18.
- These pairs of rollers for transporting the notes 12 to 18 are used exclusively for straight-ahead transport of Wertschei ⁇ ne 12 to 18 in the transport direction Pl the pinch rollers 238 to 252 and the drive rollers 38 to 52 formed pairs of rolls are also referred to as pairs of roles Sei ⁇ tenversatz the notes 12 to 18.
- the Rol ⁇ lenpare for lateral offset of the notes 12 to 18 have a non-zero angle to an orthogonal to the central axis 20 of the transport plane 10.
- the evaluation unit determines based on the provided to a banknote 12 to 18 angular and / or sides tenversatza, when and how long that pressure roller 224 to 252 or when and how long that contact pressure ⁇ unit 278a, 278b must be moved into the pressing position to correct the possible presence of angular and / or be ⁇ tenversatz, ie to reduce or eliminate.
- the pinch rollers 24 to 28 of the roller pairs for straight-line delivery of the bank notes 12 to 18 are in the pressing position and the pinch rollers 238 to 252 of the roller pairs for correcting lateral offset of the bank notes 12 to 18 in the upper position.
- the notes of value 12 to 18 are transported out ⁇ finally in the transport direction Pl.
- the pinch rollers 224 to 236 of all the pairs of rolls for straight-line delivery of the notes 12 to 18 are in the upper raised position, whereas the pinch rollers 238, 240 and 242, 244, respectively the pairs of rollers for correcting the lateral offset of the notes 12 to 18 are in the pressure position.
- the banknotes 12 to 18 are moved transversely to the transport direction Pl.
- the pairs of rollers formed by the pinch rollers 238 and 240 or 242 and 244, the drive rollers 38 and 40 and 42 and 44 exert a force on the banknote 12 to 18 and laterally shift the banknote 12 to 18.
- the Pinch rollers 238 and 240 or the pinch rollers 242 and 244 activated.
- the value ⁇ notes 12 to 18 are transported exclusively in the transport direction Pl.
- the pairs of rollers formed by the pinch rollers 230, 232 and the drive rollers 30, 32 exert a force on the banknotes 12 to 18 during the third period of time.
- the at 0.120 seconds be ⁇ begins and ends at .162 seconds, are the pressure rollers 224 to 236 of the roller pairs to the straight Trans ⁇ port of the banknotes 12 to 18 not in their Antikposi ⁇ tion, while the pinch rollers 246, 248 or 250, 252 depending on the required angular displacement of the roller pairs to eliminate or reduce a lateral offset of the notes 12 to 18 are in the pressure position.
- the notes of value 12 to 18 are transversely or obliquely transported to the transport direction Pl.
- the banknotes 12 to 18 are contacted during the fourth period of time through the by the pressure rollers 246, 248 and 250, 252 and the drive rollers 46, 48 and 50, 52 formed pairs of rollers and transported ⁇ advantage.
- Such a complementary course of the heights of the pressure rollers 224 to 236 of the roller pairs for straight-ahead transport of the notes 12 to 18 and the pinch rollers 238 to 252 of the pairs of rollers for aligning the notes 12 to 18 is advantageous because a simultaneous contact of Andruckrol ⁇ len 224 to 236 and 236 to 252 is prevented. The caused by a simultaneous contact forces on the notes 12 to 18 are thereby avoided. Such forces could lead to damage of the notes 12 to 18.
- FIG. 14 shows a diagram of the control of the pressure rollers 224 to 252 with a positional offset of 6 mm of the bank notes 12 to 18.
- the periods of time in which the pinch rollers 238, 240, 242, 244, 248, 250, 252 of the roller pairs for correcting the lateral offset of the bank notes 12 through 18 in the press position are significantly shorter.
- FIG 15 is a schematic representation of an alternative ⁇ tive design of the device for aligning bank notes 12 to 18 shown with a pair of transport belts.
- the pinch rollers 224 to 232 have been replaced by a first transport belt 370, which is guided over two rollers 372 and 374.
- the drive rollers 24 to 32 are replaced by a second conveyor belt, not shown.
- the first transport belt 370 and the second transport belt together are also referred to as a transport belt pair.
- the transport belt pair is used in the present embodiment exclusively for the straight-ahead transport of the bank notes 12 to 18.
- the first conveyor belt 370 can be moved away, not shown solenoids to the transport plane 10 toward or from the planar Trans ⁇ port 10th
- the first transport belt 370 is not driven.
- the second transport belt is constantly driven.
- the second conveyor belt ⁇ is preferably moved with the same contemplatsgeschwindig ⁇ ness as the drive rollers 34 to 52.
- the drive ⁇ roll 34 to 52 and the pressure rollers 234 to 252 are equally arranged as in the embodiment shown in Figu ⁇ ren 2 to 11 and have the same functions as in the embodiment of Figures 2 to. 11
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- Engineering & Computer Science (AREA)
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- Delivering By Means Of Belts And Rollers (AREA)
Abstract
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102008050524A DE102008050524A1 (de) | 2008-10-06 | 2008-10-06 | Vorrichtung zum Ausrichten von Wertscheinen |
PCT/EP2009/062886 WO2010040706A1 (de) | 2008-10-06 | 2009-10-05 | Vorrichtung zum ausrichten von wertscheinen |
Publications (2)
Publication Number | Publication Date |
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EP2334581A1 true EP2334581A1 (de) | 2011-06-22 |
EP2334581B1 EP2334581B1 (de) | 2013-04-03 |
Family
ID=41346074
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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EP09744987A Active EP2334581B1 (de) | 2008-10-06 | 2009-10-05 | Vorrichtung zum ausrichten von wertscheinen |
Country Status (6)
Country | Link |
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US (1) | US7950518B2 (de) |
EP (1) | EP2334581B1 (de) |
CN (1) | CN102171119B (de) |
DE (1) | DE102008050524A1 (de) |
ES (1) | ES2409111T3 (de) |
WO (1) | WO2010040706A1 (de) |
Families Citing this family (14)
Publication number | Priority date | Publication date | Assignee | Title |
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DE102009038175A1 (de) | 2009-08-20 | 2011-02-24 | Wincor Nixdorf International Gmbh | Vorrichtung und Verfahren zur Handhabung von Wertscheinen |
DE102009052040A1 (de) | 2009-11-05 | 2011-05-12 | Wincor Nixdorf International Gmbh | Vorrichtung zur Handhabung von Wertscheinen |
DE102009057068A1 (de) | 2009-12-04 | 2011-06-09 | Wincor Nixdorf International Gmbh | Vorrichtung zur Handhabung von Wertscheinen |
DE102011000783A1 (de) * | 2011-02-17 | 2012-08-23 | Wincor Nixdorf International Gmbh | Vorrichtung zur Handhabung von Wertscheinen mit einer Ausrichteinheit zum Ausrichten von Banknoten und Schecks |
CN102324154B (zh) | 2011-09-23 | 2012-11-14 | 广州广电运通金融电子股份有限公司 | 一种钞票偏斜校正装置及自动柜员机 |
DE102012112719A1 (de) * | 2012-12-20 | 2014-06-26 | Böwe Systec Gmbh | Vorrichtung und Verfahren zum Drehen von flachen Gütern |
US9868604B2 (en) * | 2013-03-15 | 2018-01-16 | Crane Canada Co. | Banknote alignment system for banknote validator |
WO2014181945A1 (ko) * | 2013-05-10 | 2014-11-13 | 노틸러스효성 주식회사 | 지폐정렬장치 |
DE102017105847B4 (de) | 2017-03-17 | 2019-07-04 | Wincor Nixdorf International Gmbh | Anordnung und Verfahren zum Ausrichten mindestens eines Wertscheines |
DE102017105842B4 (de) * | 2017-03-17 | 2019-05-29 | Wincor Nixdorf International Gmbh | Vorrichtung zum Ausrichten von Wertscheinen |
DE102017105845A1 (de) * | 2017-03-17 | 2018-09-20 | Wincor Nixdorf International Gmbh | Vorrichtung zum Ausrichten von Wertscheinen |
CN107393127B (zh) * | 2017-07-12 | 2023-03-24 | 深圳怡化电脑股份有限公司 | 钞票传输纠偏装置及纠偏方法 |
CN110395525B (zh) * | 2019-07-24 | 2024-05-03 | 湖州众友智能装备科技有限公司 | 一种摆轮分拣机 |
JP2023109472A (ja) | 2022-01-27 | 2023-08-08 | グローリー株式会社 | 紙葉類幅寄せ装置、紙葉類処理装置、及び、紙葉類幅寄せ方法 |
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DE2104113A1 (de) | 1970-02-13 | 1971-08-19 | Polygraph Leipzig | Verfahren und Vorrichtung zur passer genauen Anlage von Bogen an einer Bogen druckmaschine |
JPS5953346A (ja) * | 1982-09-16 | 1984-03-28 | Ricoh Co Ltd | 用紙方向変換装置 |
DE59010393D1 (de) * | 1989-12-07 | 1996-08-01 | Mars Inc | Vorrichtung zum Ausrichten von Blättern |
US5012915A (en) * | 1990-02-15 | 1991-05-07 | H.G. Weber & Co., Inc. | Method and apparatus for rotating an item |
SE503120C2 (sv) | 1995-03-31 | 1996-03-25 | Inter Innovation Ab | Anordning för korrekt matning av tunna objekt, såsom sedlar, checker etc |
US5857672A (en) * | 1995-10-20 | 1999-01-12 | Stone Container Corporation | Apparatus for rotating substantially flat articles |
FR2746084B1 (fr) * | 1996-03-13 | 1998-05-07 | Dispositif de rotation de feuilles sur un convoyeur a rouleaux | |
DE10023290A1 (de) * | 2000-05-12 | 2001-11-15 | Nexpress Solutions Llc | Ausrichteeinheit für bogenförmiges Material |
DE10236028A1 (de) * | 2002-08-06 | 2004-02-19 | Giesecke & Devrient Gmbh | Vorrichtung und Verfahren für das Ausrichten von Banknoten |
EP1433728A1 (de) * | 2002-12-23 | 2004-06-30 | Mars Incorporated | Fördervorrichtung für Banknoten |
US6923309B2 (en) * | 2003-10-03 | 2005-08-02 | Laitram, L.L.C. | Article-orienting conveyor |
US7648138B2 (en) * | 2004-09-14 | 2010-01-19 | Hitachi-Omron Terminal Solutions, Corp. | Sheet handling apparatus |
DE102004060191A1 (de) | 2004-12-14 | 2006-06-29 | Wincor Nixdorf International Gmbh | Vorrichtung zum Ausrichten von Wertscheinen |
JP4708900B2 (ja) * | 2005-07-28 | 2011-06-22 | キヤノン株式会社 | シート搬送装置及び画像形成装置 |
JP5280353B2 (ja) * | 2006-06-15 | 2013-09-04 | レイトラム,エル.エル.シー. | 物品を回転させるベルトコンベヤ |
JP5164471B2 (ja) * | 2006-09-27 | 2013-03-21 | キヤノン株式会社 | 駆動装置 |
DE102007050449B4 (de) * | 2007-09-03 | 2021-01-07 | Wincor Nixdorf International Gmbh | Verfahren zum Ausrichten eines blattförmigen Mediums und Ausrichtvorrichtung für das Medium |
-
2008
- 2008-10-06 DE DE102008050524A patent/DE102008050524A1/de not_active Withdrawn
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2009
- 2009-10-05 ES ES09744987T patent/ES2409111T3/es active Active
- 2009-10-05 WO PCT/EP2009/062886 patent/WO2010040706A1/de active Application Filing
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- 2009-10-05 CN CN200980139463.3A patent/CN102171119B/zh active Active
- 2009-10-28 US US12/607,811 patent/US7950518B2/en active Active
Non-Patent Citations (1)
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CN102171119A (zh) | 2011-08-31 |
CN102171119B (zh) | 2013-12-18 |
DE102008050524A1 (de) | 2010-04-08 |
ES2409111T3 (es) | 2013-06-25 |
WO2010040706A1 (de) | 2010-04-15 |
US7950518B2 (en) | 2011-05-31 |
EP2334581B1 (de) | 2013-04-03 |
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