The present invention relates to the field of printing. More specifically, the present invention relates to methods and apparatus for printing receipts and validating forms using a printer having dual-purpose roller shaft.
There are several dual-purpose printers in the prior art capable of both printing receipts and validating forms, such as checks or coupons. Such printers are used, for example, in conjunction with cash registers at grocery stores, convenience stores, and at other point-of-sale applications. Such printers typically have a roll of paper used to print receipts and a separate slot which accepts forms to be validated and which prints validation indicia on such forms (e.g., checks, coupons, vouchers, etc.). The prior art dual-purpose printers typically have a trapped or enclosed receipt paper path that is not easily accessible. Paper in each machine is loaded from the supply roll, under a non-opening drive roller assembly. The paper follows the roller to a vertical path where the paper is printed. If a jam occurs during the loading or during printer operation it can be very difficult to remove the paper.
It would be advantageous to provide a dual-purpose printer that validates inserted forms and prints receipts using a low-cost, compact architecture. It would also be advantageous to provide such a printer with independent drive mechanisms for driving paper through a receipt path for printing receipts and for driving a form out of a validation path after validation and printing of validation indicia thereon. It would be advantageous to provide such a printer with a dual-purpose roller which idles against the receipt drive roller for printing of receipts and which drives a validation drive roller for validation of forms. It would be further advantageous to provide a validation slot that allows for variable form positioning. In addition, it would be advantageous to enable easy access to the drive roller assemblys and the receipt paper path to enable paper jams to be removed quickly.
The methods and apparatus of the present invention provide the foregoing and other advantages.
The present invention relates to methods and apparatus for printing receipts and validating forms using a dual-purpose printer having a dual-purpose roller shaft.
In an example embodiment of the present invention, a dual-purpose printer for printing receipts and validating forms is provided. The printer comprises a receipt drive roller for driving paper through a receipt path, a dual-purpose roller capable of contacting the drive roller, and a validation idler roller adapted to be brought into and out of engagement with the dual-purpose roller. The receipt path is formed between the receipt drive roller and the dual-purpose roller. A validation path is formed between the validation idler roller and the dual-purpose roller. Rotation of the receipt drive roller in a first direction enables driving of the paper through the receipt path. When the validation idler roller is in engagement with the dual-purpose roller, the rotation of the dual-purpose roller in the first direction enables discharging of a form from the validation path when validation is completed.
The dual-purpose printer may also include a receipt cover. The receipt drive roller may pivot with the receipt cover. A receipt drive frame may be affixed to the cover. The receipt drive roller may float in the receipt drive frame. For example, the receipt drive frame may permit movement of the receipt drive roller in a radial arc about a pitch line of a corresponding drive gear.
At least one gear train for driving the receipt drive roller may be provided on at least one corresponding side of the receipt drive frame. For example, duplicate gear trains for driving the receipt drive roller may be provided on opposing sides of the receipt drive frame.
Similarly, at least one gear train may be provided for driving the dual-purpose roller. In addition, separate drive motors may be provided for the receipt drive roller and the dual-purpose roller.
The dual-purpose roller may comprise a center idler segment which opposes a center drive segment of the receipt drive roller and two outer drive segments on either side of the center idler segment. The center idler segment may be adapted to idle against the receipt drive roller when in contact with the receipt drive roller. The outer drive segments may be adapted to engage corresponding segments of the validation idler roller when the validation idler roller is brought into engagement with the dual-purpose roller.
The dual-purpose printer may also include a print station having a print head. A print carriage may be mounted to the print station.
The validation idler roller may be mounted in the print station. For example, the validation idler roller may be mounted in slide bearings in the print station. The print station may be adapted for pivotable movement enabling the validation idler roller to be brought into and out of engagement with the dual-purpose roller.
A validation lift assembly may be provided for moving the print station between an open and a closed position. In the open position the validation idler roller may be out of engagement with the dual-purpose roller. In the closed position the validation idler roller may be in engagement with the dual-purpose roller. At least one sensor may be provided for sensing the open and the closed positions.
The validation lift assembly may comprise a compact DC motor, a worm gear reduction unit, and a disk cam. The disk cam may be adapted to engage an underside of the print station or a secondary bearing plate. An upper surface of the cam may be profiled for pivoting the print station between the open position and the closed position.
The form may comprise a check, a voucher, a ticket, a coupon, or the like. A validation slot may be provided in the validation paper path for accepting the form. The validation slot may extend through a body of the printer enabling validation of forms that are larger than a width of the printer.
An adjustable slip stop may be provided for variable positioning of the form in a validation slot of the validation path. The slip stop may be retractable, enabling the slip stop to be moved into and out of the validation slot and the validation path.
The present invention also includes methods for printing receipts and validating forms which correspond to the dual-purpose printer described above. In one example method embodiment, a receipt path is provided between a receipt drive roller and a dual-purpose roller and a validation path is provided between a validation idler roller and the dual-purpose roller. The receipt drive roller is enabled to rotate in a first direction for driving of paper through the receipt path. The validation idler roller is adapted to be brought into and out of engagement with the dual-purpose roller. The dual-purpose roller is enabled to rotate in the first direction when the validation idler roller is brought into engagement with the dual-purpose roller for driving a form out of said validation path after validation is complete.
The methods may also include additional features discussed above in connection with the dual-purpose printer 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 printing receipts and validating forms using a dual-purpose roller shaft.
In an example embodiment of the present invention as shown in
It should be noted that the receipt drive roller 12 is bi-directional as it is necessary in certain printing situations to reverse the drive to print (or complete printing) special characters, high characters, or certain letters such as lower case “y” which fall below a nominal print line.
For validation of a form, the form is dropped into the validation path 20 via validation slot 72 (
The paper 13 used for receipts may be a paper roll as shown in
As shown in
As shown in
At least one gear train 38 for driving the receipt drive roller 12 may be provided on at least one corresponding side of the receipt drive frame 34. For example, duplicate gear trains 38 for driving the receipt drive roller 12 may be provided on opposing sides of the receipt drive frame 34. Duplicating the gear train 38 for the receipt drive roller 12 on each side of the frame 34 balances the reactive forces of the gear mesh. Thus, the receipt drive roller 12 is able to compensate for manufacturing tolerances and variability so that it reliably engages with the center of the dual-purpose roller 16.
A lower receipt drive roller 24 may also be provided. This lower receipt drive roller 24 may also pivot with the receipt cover 30. The lower receipt drive roller 24 may be opposed by a spring-loaded idler roller 26 (
As shown in
As shown in
As shown in
The validation idler roller 18 may be mounted in the print station 50. For example, the validation idler roller 18 may be mounted in slide bearings 54 in the print station. Mounting the validation idler roller 18 in slide bearings 54 compensates for manufacturing tolerances and variability. The print station 50 may be adapted for pivotable movement enabling the validation idler roller 18 to be brought into and out of engagement with the dual-purpose roller 16. When the print station 50 pivots so that the validation idler roller 18 is brought into engagement with the dual-purpose roller 16, it may “over close” by approximately 0.03″ to compensate for variability and ensure that the drive segments 42 of the dual-purpose roller 16 are engaged by the corresponding segments 44 of the validation idler roller 18, which helps prevent skew of forms during validation. The print station pivots independently of the pen cover.
As shown in
The validation lift assembly 60 may be mounted directly beneath the print station 50. The validation lift assembly 60 may comprises a compact DC motor 62, a worm gear reduction unit 64, and a disk cam 66. The underside of the cam 64 may have two tracks which signal one sensor 67 when the print station 50 is fully raised (validation idler roller 18 engaged) and which signal the other sensor 68 when the print station 50 is fully lowered (validation nip opened for insertion). The disk cam 66 may be adapted to engage an underside of the print station 50 (or a secondary bearing plate). For example, the upper surface 70 of the cam 66 may be in direct contact with the underside of the print station 50. A small piece of plastic may be used to reduce friction at this contact point. The upper surface 70 of the cam may be profiled for pivoting the print station 50 between the open position and the closed position.
The form may comprise one of a check, a voucher, a ticket, a coupon, or the like. As shown in
The form to be validated may be dropped into the validation slot 72 and positioned left to right to vary the position of the print zone on the form. The print zone may be defined by the field of movement of the print carriage 52. Two sensors 81 in the paper bucket 83 (
As shown in
The slip stop 76 can be extended into the validation path 20, as shown in
It should now be appreciated that the present invention provides advantageous methods and apparatus for both printing receipts and validating forms using a single compact, low-cost 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.
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Number | Date | Country | |
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20090120313 A1 | May 2009 | US |