The present invention relates to methods and apparatus for stacking paper tickets, receipts, vouchers and the like that exit a transaction-based printer. The tickets are fed into a ticket bin in an overlapped manner, which assures proper stacking and ordering of the printed tickets.
High speed printers, such as inkjet, thermal, dye sublimation and dot matrix printers are used to provide vouchers, coupons, tickets, receipts and the like (all generally referred to herein as “tickets”) to consumers. For example, when a winning lottery prize becomes relatively large, the lines at ticket sales counters become long. In addition, the number of tickets purchased by each person in the line can be relatively large. Most point of sales (POS) and other transaction-based printers have been designed to issue one ticket, voucher, coupon or receipt at a time. Sales personnel are therefore required to remove each printed sheet manually from the printer. When a number of lottery or wagering tickets, for example, are purchased in a single transaction, the sales person must compile all of the tickets for that transaction by hand. This can be a time consuming procedure leading to errors being made and long delays in ticket sales.
In printers that are able to issue more than one ticket at a time, problems develop due to the commonly used roll-type paper stock used in such printers, which causes the cut tickets to curl upon being ejected from the printer. A curled ticket may block the printer's ticket exit, such that subsequent tickets may be stacked out of order or pushed out of the ticket bin.
It would be advantageous to provide methods and apparatus for stacking multiple tickets which assures a proper stacking order. Such a stacking function would be particularly advantageous for high speed printers that dispense quantities of tickets, vouchers, receipts, coupons and other printed substrates. Such printers are often used in wagering and lottery terminals, as well as in other point of sale terminals such as those used to print train tickets, bus tickets, movie and theater tickets, retail coupons, and other substrates of value.
The present invention provides methods and apparatus for stacking tickets in a printer having the aforementioned and other advantages.
The present invention relates to methods and apparatus for stacking paper tickets, receipts, vouchers and the like that exit a transaction-based printer. The tickets are fed into a ticket bin in an overlapped manner, which assures proper stacking and ordering of the printed tickets.
In one example embodiment of a method for stacking tickets in a printer in accordance with the present invention, a stacking nip is provided which is adapted to accept a first ticket from a ticket cutter. The first ticket is fed into the stacking nip, and then advanced by the stacking nip for a fixed distance until a trailing edge of the first ticket is positioned before the stacking nip. A second ticket is then fed towards the stacking nip. The first ticket is held in the stacking nip with the trailing edge positioned before the stacking nip until a leading edge of the second ticket overlaps the trailing edge of the first ticket. The trailing edge of the first ticket and the leading edge of the second ticket are then simultaneously advanced through the stacking nip. The first ticket is ejected from the stacking nip into a ticket bin once the trailing edge is advanced through the stacking nip.
Once the first ticket is ejected, the stacking nip advances the second ticket by the fixed distance until a trailing edge of the second ticket is positioned before the stacking nip, and the process is repeated with subsequent tickets.
In one example embodiment, the stacking nip may be offset from the ticket cutter in a direction of travel of the ticket. For example, if the stacking nip is arranged vertically above the ticket cutter in the printer, the stacking nip may be horizontally offset from the ticket cutter.
A shelf may be provided between the ticket cutter and the stacking nip. The shelf may be in line with the ticket cutter and offset from the stacking nip. The shelf may be adapted to provide a space for the trailing edge of the first ticket to snap into when the stacking nip advances the first ticket the fixed distance. A guide may be provided leading from the ticket cutter to the stacking nip for guiding tickets from the ticket cutter past the shelf.
The overlap between the trailing edge of the first ticket and the leading edge of the second ticket may comprise approximately 0.125 inches.
A deflector may be provided to guide ejected tickets into a stacking position in the ticket bin and to support the ejected tickets in the stacking position in the ticket bin. The deflector may comprise a weighted pivoting deflector.
In a further example embodiment, the stacking nip may comprise two spaced apart pairs of rollers. Each pair of rollers may comprise a drive roller and an idler roller adapted idle against the drive roller. A stacking shelf may be disposed in the ticket bin which extends in part between the two spaced apart pairs of rollers. Upon the ejecting of the first ticket, the trailing edge of the first ticket may rest on or above the stacking shelf. The first ticket may then be driven into a stacking position in the ticket bin. The weighted pivoting deflector may guide the ejected tickets into the stacking position in the ticket bin.
A ticket stacker for a printer is also provided in accordance with the present invention. In one example embodiment, the ticket stacker comprises a stacking nip adapted to accept tickets from a ticket cutter, drive means for feeding the tickets into the stacking nip, a stacker motor for driving the stacking nip which is adapted to partially mimic operation of the drive means, and a ticket bin for accepting the tickets ejected from the stacking nip. A first ticket is advanced by the stacking nip for a fixed distance until a trailing edge of the first ticket is positioned before the stacking nip. A second ticket is fed towards the stacking nip by the drive means. The first ticket is held in the stacking nip with the trailing edge positioned before the stacking nip until a leading edge of the second ticket overlaps the trailing edge of the first ticket. The trailing edge of the first ticket and the leading edge of the second ticket are simultaneously advanced through the stacking nip. The first ticket is ejected into the ticket bin once the trailing edge is advanced through the stacking nip.
The ticket stacker may also include additional features discussed above in connection with the various method embodiments.
The present invention will hereinafter be described in conjunction with the appended drawing figures, wherein like reference numerals denote like elements, and:
The ensuing detailed description provides exemplary embodiments only, and is not intended to limit the scope, applicability, or configuration of the invention. Rather, the ensuing detailed description of the exemplary embodiments will provide those skilled in the art with an enabling description for implementing an embodiment of the invention. It should be understood that various changes may be made in the function and arrangement of elements without departing from the spirit and scope of the invention as set forth in the appended claims.
The present invention relates to methods and apparatus for stacking tickets in a ticket printer, where the tickets are fed into a ticket bin in an overlapped manner, which assures proper stacking and ordering of the printed tickets. It should be appreciated that the term “ticket” as used herein encompasses not only tickets (e.g., lottery tickets, etc.) but also any similar type of document, including vouchers, coupons, receipts and the like.
As shown in
For ease of explanation, the drawings show the tickets as being of the same length. However, it should be appreciated that the present invention is adapted to print and stack tickets of varying lengths, so that the first ticket and the second ticket may be of different lengths, or different batches of tickets may have tickets of different lengths. Further, in the event that only one ticket is being printed, it will be advanced through the stacking nip and into the ticket bin without being stopped in the stacking nip, as only when multiple tickets are printed simultaneously is it necessary to provide an overlap of the leading and trailing edges of the current (e.g., first) and next (e.g., second) tickets to ensure proper stacking order.
In one example embodiment, the stacking nip 14 may be offset from the ticket cutter 18 in a direction of travel of the ticket. For example, if the stacking nip 14 is arranged vertically above the ticket cutter 18 in the printer (as shown, for example, in
A shelf 30 may be provided between the ticket cutter 18 and the stacking nip 14. The shelf 30 may be in line with the ticket cutter 18 and offset from the stacking nip 14. The shelf may be adapted to provide a space 32 for the trailing edge 20 of the first ticket 16 to snap into when the stacking nip 14 advances the first ticket 16 the fixed distance. In addition, a guide 34 may be provided leading from the ticket cutter 18 to the stacking nip 14 for guiding tickets from the ticket cutter 18, past the shelf 30, and into the stacking nip 14. For example, the guide 34 may act as a guide to lead the leading edge of the ticket 16 to the stacking nip 14, which is offset from the ticket cutter 18. The ticket 16 is then bent around the shelf 30 when advanced by the stacking nip 14. After the ticket 16 is advanced by the fixed distance, the trailing edge 20 of the ticket will snap into a position behind the shelf 30, as shown in
The overlap between the trailing edge 20 of the first ticket 16 and the leading edge 24 of the second ticket 22 may comprise, for example, approximately 0.125 inches. However, a different amount of overlap may be provided as long as the amount of overlap ensures proper ordering of the tickets being fed through the stacking nip 14 and into the ticket bin 26.
A deflector 36 may be provided to guide ejected tickets into a stacking position in the ticket bin 26 and to support the ejected tickets in the stacking position in the ticket bin 26. The deflector 36 may comprise a weighted pivoting deflector. The deflector 36 may be secured to a cover or printer housing via a hinge or pivot point 38. The deflector 36 guides the tickets into the ticket bin 26 and may apply pressure to the stack of tickets in the ticket bin 26, to maintain the stack of tickets in the ticket bin 26 in an orderly manner in a correct sequence.
In a further example embodiment, the stacking nip 14 may comprise two spaced apart pairs of rollers.
Alternatively, upon the ejecting of the first ticket 16, the trailing edge 20 of the first ticket 16 may rest on a semi-circular portion (not shown) of the ticket bin 26 that closely conforms to a partial circumference of one of the idler rollers or the drive rollers. For example, the stacking shelf 44 may be extended to at least partially cover the drive rollers 40.
In a further example embodiment, the trailing edge of the first ticket may come to rest on one of the idler rollers or the drive rollers. The first ticket can then be driven behind the rollers into a stacking position in the ticket bin when the rollers advance. For example, the trailing edge 20 of the first ticket 16 may come to rest on drive rollers 40 when ejected from the stacking nip 14, and be driven into the ticket bin 26 when the roller 40 is advanced further. A further deflector (not shown) may be provided to ensure that the trailing edge 20 of the first ticket 16 maintains contact with the one roller upon the ejecting of the first ticket and that the ticket is guided into the stacking position.
In order to move the tickets through the printing mechanism 10 and into the stacker 12, the motor (not shown, part of drive mechanism 46) for the drive roller 40 of the stacking nip 14 is controlled to correspond closely to the platen drive 4. As the ticket is advanced through the print station 10 by the platen drive 4, the stacker motor drives the drive roller 40 of the stacking nip 14 by a corresponding amount at a corresponding rate. This amount/rate may be variable as the print speed may vary depending on the characteristics of the data being printed on different portions of the ticket. When the printing is finished, the platen drive 4 stops, as does the drive roller 40 of the stacker. The ticket is then cut from the roll of tickets by cutter 18 and the ticket is then advance by a fixed distance until the trailing edge of the ticket is past the edge of the shelf 30 (the fixed distance corresponds to the distance between the cutter 18 and the shelf 30). The drive roller 40 is then stopped and does not advance until the platen drive 4 moves the fixed distance plus the desired overlap between the two tickets. Once this distance is reached, the stacker motor (and thus the stacking nip 14) then begins to mimic the movement and rate of the platen drive 4, driving the trailing edge of the current ticket (e.g., trailing edge 20 of first ticket 16) and the leading edge of the next ticket (e.g., leading edge 24 of the second ticket 22) through the stacking nip 14 until the current ticket is ejected into the ticket bin 26 and the next ticket has printed. Once cut, the next ticket is advanced by the stacking nip 40 by the fixed distance and the process is repeated with subsequent tickets.
Those skilled in the art will appreciate that although motor position control is used to advance the tickets the desired amount to achieve the desired positioning of the tickets, other methods may also be used, including methods using software control, sensor feedback, and the like.
It should now be appreciated that the present invention provides advantageous methods and apparatus for stacking tickets in a ticket printer.
Although the invention has been described in connection with various illustrated embodiments, numerous modifications and adaptations may be made thereto without departing from the spirit and scope of the invention as set forth in the claims.