The present invention relates to lottery tickets that are printed and redeemed at a point of sale terminal, and more particularly to a lottery ticket having a separate printing section for a validation mark.
Various examples of lottery games are well-known wherein players purchase game related tickets or receipts at a remote point of sale, such as a retail establishment. For example, state and multi-state lotteries are conducted at numerous remote terminals whereby players designate a set of numbers, or elect a random set of generated numbers. A receipt or ticket reflecting the player's numbers is printed at the point of sale terminal. These remote terminals are networked with the gaming authority's central computer, and a record is made of the pertinent data related to the ticket sale, including a serial number or other identifying data. The game is concluded with a drawing conducted by the gaming authority and publication of the winning numbers. The winning tickets are presented by players for redemption at an approved lottery location, which may be the point of initial purchase of the ticket.
The typical lottery terminal includes a thermal printer that prints the lottery ticket on stock thermal paper supplied in roll form. This paper may have any manner of indicia pre-printed thereon. For example, the paper may have a background pattern, or indicia identifying the game, game administrator, rules, and so forth on one or both sides of the paper. The game data (i.e., selected numbers, time and date, serial number, terminal location, and the like) may be thermally printed over the indicia or in a blank area of the paper bordered by the indicia. The conventional thermal printers and processes are relatively efficient and inexpensive, but are limited in their ability to print colorful and aesthetically pleasing tickets, which can detract from the overall appeal of the game to the public.
It is also a typical practice to “brand” the lottery tickets presented for redemption with a validation mark, for example by printing a word mark or pattern on the ticket in the scanning process. This mark indicates to all that the ticket has already been played and redeemed. The mark may also prevent subsequent scanning or reading of the ticket. Reference is made to U.S. Pat. No. 6,752,319 for a discussion of a branding process using an invisible material on the ticket that becomes visible when exposed to radiant heat.
The present invention relates to an improved process an associated lottery tickets that offer the advantages of inkjet printed tickets with an inexpensive branding process.
Objects and advantages of the invention will be set forth in part in the following description, or may be obvious from the description, or may be learned through practice of the invention.
Aspects of the present invention involve a method of printing and validating lottery tickets, particularly at the point of sale terminal. The method involves providing a stock paper to the terminal on which the lottery tickets are printed. The stock paper has a first section configured particularly for inkjet printing. In other words, this first section is an inkjet compatible paper. Inkjet compatible papers are well known in the industry and typically have a wax film coating that provides the paper with an enhanced brightness and decreased ink absorption such that the individually deposited ink dots do not readily diffuse and spread into the paper, but maintain a well defined shape. These properties result in a crisp and clear inkjet printed pattern. A second defined section of the stock paper is suitable for thermal printing, and includes a thermally sensitive ink composition applied thereto. Thermal print paper is typically a plain or bond paper having a heat reactive ink or dye applied thereto, and is also referred to as thermochromatic paper.
At a point of sale terminal, such as typically found in a retail establishment, individual lottery tickets are printed on the stock paper. This printing process includes printing game data and related game indicia on the first section with an inkjet printer. In this manner, the game data and indicia may be presented in multiple colors, and in a generally aesthetically pleasing format that is not possible with conventional thermal printing. The second defined section containing the thermally sensitive ink composition is not printed on at this time.
When a winning ticket is presented for redemption or validation, the ticket is “branded” with a validation mark by exposing the second section of the stock paper to a heat source so that the thermally sensitive ink composition is activated and produces any manner of indicia, pattern, words, and the like, that constitutes a branded validation mark.
In a particular embodiment, the second section is defined on the stock paper in one or more stripes of the thermally sensitive ink composition. For example, a stripe may be defined along the longitudinal edge of the stock paper. In an alternate embodiment, the stripes may be provided at each longitudinal edge of the paper. In still another embodiment, the stripes may be provided at other locations, and may form, for example, a border around the lottery ticket.
The second section may have the thermally sensitive ink composition applied as a continuous coating, such as a continuous stripe. In other embodiments, the ink composition may be applied in any continuous or discontinuous pattern or indicia. These terms are meant to encompass any design, words, pattern, or any other mark that, when rendered visible, serves as a validation mark. The thermally sensitive ink composition may be applied using an suitable coating or printing technique.
The second section may be formed on the stock paper by coating the stock paper with the thermally sensitive ink composition, and then applying a protective coating over the ink composition in a subsequent coating or printing step.
For embodiments wherein the second section has a generally continuous coating of the thermally sensitive ink composition, the second section can be exposed to a uniform heat source such that the validation mark appears as a continuous region, such as a continuous stripe, in the second section. The uniform heat source may be provided by different suitable devices, such as a radiant heat bar, heat lamp, and so forth, configured with a scanner at the point of sale used to scan and validate the tickets.
In an alternate embodiment wherein the second section has a generally continuous coating of the thermally sensitive ink composition, the second section may be exposed to a thermal print head that functions as the heat source, with the validation mark appearing as any manner of indicia printed by the thermal print head, as with a conventional thermal printing process.
In particular embodiments, the thermally sensitive ink composition may be applied to the second section as a discontinuous pattern or indicia that is then exposed to a uniform heat source such that the validation mark appears as the originally applied pattern or indicia. For example, the ink composition may be “printed” in the second section as a floral design or repeating border design, and dried on the stock paper in this pattern. Once the second section is exposed to heat, the ink is activated and the pattern or indicia becomes visible.
The thermally sensitive ink composition may be substantially invisible in its inactivated state, or may have a first color or hue. When the ink composition is exposed to heat, the ink composition changes state (i.e., color) and the validation mark becomes visible. Preferably, the transformation of the ink composition is irreversible. Various thermally sensitive inks (i.e. thermochromatic inks) are known and commercially available, and may be used in the ink composition according to the invention.
In a unique embodiment, the game data and indicia is printed in the first section in multiple colors with the inkjet printer, and the validation mark appears as a single uniform color once activated by the heat source.
The stock paper may be made in a conventional paper conversion process wherein, at some point in the process, a region of the paper, such as the edge strips of the paper, are coated or printed with the thermally sensitive ink. In this conversion process, the initial stock paper may be a plain or bond paper that is treated in a first process to be inkjet compatible in a region or area corresponding to the first section of the lottery tickets, and then treated in a second area or region with the thermally sensitive ink corresponding to the second section of the lottery tickets. In an alternative conversion process, the initial stock paper may be an inkjet compatible paper, with a region or area of the paper being coated with the thermally sensitive ink corresponding to the second section of the lottery tickets. Any combination of known paper conversion processes may be used to form the lottery ticket stock paper.
Aspects of the invention will be described in greater detail below by reference to particular embodiments illustrated in the figures.
Reference will now be made in detail to embodiments of the method and system according to the invention, particular examples of which are illustrated in the drawings. Each embodiment is provided by way of explanation of the invention, and not meant as a limitation of the invention. For example, features illustrated or described with respect to one embodiment may be used with another embodiment to yield still a further embodiment. It is intended that the invention include these and other modifications and variations to the embodiments illustrated and described herein as come within the scope and spirit of the invention.
Various embodiments 10 of lottery tickets in accordance with aspects of the invention are illustrated in
Each of the tickets 10 printed on the stock paper 12 includes a first section 14. This section 14 may be any designated or defined section of the ticket and, in the illustrated embodiment, encompasses all of the ticket 10 except for a longitudinal border region along the left-hand side of the ticket 10. The first section 14 is an inkjet printing compatible section. In other words, the first section 14 is inkjet compatible paper. As mentioned, inkjet compatible paper has certain characteristics, such as increased brightness and decreased ink absorption, which make the paper particularly suitable for inkjet printing. Inkjet compatible paper may include a surface treatment of a waxy film for this purpose. As is generally recognized, inkjet printing provides a clean, crisp print matrix is particularly suited for color printing. Thus, in the first section 14 of the tickets 10, the game data and any other game related indicia 18 are inkjet printed in any desired configuration, color scheme, and so forth. The game data and indicia 18 may be presented in a colorful aesthetically pleasing format that appeals to players and, thus, may serve to market the game and generate name recognition for a particular game. It should be readily appreciated that the game data and related indicia 18 may be presented in the first section 14 in any conceivable format and color scheme.
A second section 16 of the stock paper 12 is also defined on the tickets 10. The second section 16 has different surface characteristics than the first section 14, and includes a thermally sensitive ink composition. In the illustrated embodiments, the second section 16 is defined as a longitudinal stripe region. However, it should be readily appreciated that the second section 16 may be defined in any pattern or location on the surface area of the individual tickets 10. One or more longitudinal stripe regions along the edges of the tickets 10 may be preferred from a manufacturing standpoint.
It should be understood that the thermally sensitive ink composition is used herein to include any heat reactive ink or dye composition used to make thermal print paper, which is also known in the art as thermochromatic paper.
In a particular embodiment, the thermally sensitive ink composition includes an ink known as “Thermal InkSecure™” ink commercially available from Mark-Sensing Ltd., of Australia. Certain embodiments of the composition may contain the ink from about 60% to about 99% by weight. The composition may include other components to aid in application, durability, and dispersion of the composition. For example, the composition may include from about 0 to about 40% of Kaolin clay, and from about 0 to about 1% of an anti-foam agent to enhance durability, dispersion, and application of the composition. It should be readily appreciated that those skilled in the art may formulate any suitable thermally sensitive ink composition in accordance within the scope and spirit of the invention.
The thermally sensitive ink composition may be slightly visible, or substantially invisible. In an alternative embodiment, the composition may include a pigment or color tint. Thermal inks, such as the Thermal InkSecure ink mentioned above, react irreversibly when subjected to heat, typically in excess of 200° F. The irreversible reaction causes the ink to change color, and thus the ink pattern becomes visible, or at least more distinguishable.
The thermally sensitive ink composition may include a top protective coating to prevent the ink from wearing off in normal processing of the lottery tickets 10. This protective coating may be, for example, an acrylic polymer water-based topcoat. In a particular embodiment, this topcoat may include an acrylic copolymer (Rhoplex 1-2426D) as a primary component. The topcoat composition may be applied by any suitable technique over the thermally sensitive ink composition and subsequently dried in a forced hot-air oven, or other suitable technique. Care should be taken not to exceed the activation temperature of the thermally sensitive ink. The use of clear or colored protective topcoats on lottery and other game tickets, particularly instant scratch-off tickets, is well known in the industry, and any one or combination of these topcoats may be utilized within the scope and spirit of the invention.
Referring to
It should be understood that the thermally sensitive ink composition may be applied to the second section 16 in any continuous or discontinuous pattern. For example, the ink composition may be “printed” in a discontinuous border pattern 24 as indicated in
Referring to
The embodiment of
As mentioned, the terminal/scanner incorporates a heat source to activate the thermally sensitive ink composition within the second section 16. This heat source may be, for example, a heat bar, light, or other suitable heat source that generates heat over an area sufficient to expose the surface area of second section 16.
In an alternative embodiment, the heat source within the terminal can comprise a conventional thermal print head. With this configuration, the validation mark may be formed as a discontinuous pattern, such as the mark 24 in
In the embodiment of
It should be readily appreciated that the conversion process conceptually illustrated in
It should be appreciated by those skilled in the art that various modifications and variations can be made to the systems and methods described herein without departing from the scope and spirit of the invention.
The present application claims priority to U.S. Provisional Application Ser. No. 60/975,958, filed Sep. 28, 2007.
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Number | Date | Country | |
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Number | Date | Country | |
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60975958 | Sep 2007 | US |