The invention generally relates to stored value tokens. More particularly, the invention relates to a stored value token having a three dimensional volume that contains movable consumer goods.
Stored value tokens that include, but are not limited to, gift cards, are often purchased such that the intended recipient of the gift card may use the value associated with the gift card to purchase one or more consumer products. When an intended recipient receives a gift card, the recipient may not have an immediate idea of what consumer product he or she may want to purchase with the gift card.
On some occasions the intended recipient of a gift card may know immediately what he or she may want to purchase with the gift card. However, later, when the gift card recipient steps inside the store associated with the gift card, the recipient may forget his or her previous idea for use of the gift card.
In other instances, gift cards may be sold without any suggestion of the consumer goods which may be purchased with the gift cards. Further, gift cards are often sold without providing any direct value to the consumer other than what value may be in the stored value account associated with the gift card.
Accordingly, there is a need in the art for a method and system that includes a stored value token which suggests products that may be purchased using the gift card while also providing direct value to the consumer in the form of one or more consumer goods. There is a further need in the art for a method and system that includes a stored value token that can store consumer goods which may be used by the token recipient.
A stored value token can include a three dimensional, rectangular shaped closeable volume. The closeable volume can have a length, width, and a first thickness, the length being substantially greater than the width, the length and width being substantially greater than the first thickness, and the closeable volume has first and second planar, two dimensional surfaces defined by the length and width. The closeable volume can include human-readable media positioned on the first planar two dimensional surface, while the closeable volume has machine-readable media positioned on the second planar two dimensional surface.
The token can comprise a three dimensional, rectangular shaped closeable volume, the closeable volume having a length, width, and a first thickness, the length being substantially greater than the width, the length and width being substantially greater than the first thickness. The closeable volume has first and second planar, two dimensional surfaces defined by the length and width. The closeable volume comprises human-readable media positioned on the first planar two dimensional surface. The closeable volume also comprises machine-readable media positioned on the second planar two dimensional surface. The human readable media comprises one of text and illustrations that suggest products which can be purchased with the stored value token. The machine-readable media comprises one of a bar code, integrated circuit, a radio-frequency antenna, and a magnetic stripe.
The token also has a movable cover for allowing access to the closeable volume. The movable cover is attached to the closeable volume by a hinge. A plurality of movable objects are contained within the closeable volume, in which each movable object has a second thickness. The first thickness is greater than the second thickness and each movable object comprises a consumer good.
A method and system provides a stored value token that comprises a three dimensional, closed volume which can include a movable cover for allowing access to the closed volume. The closed volume can contain various movable objects such as consumer goods, like plant seeds, edible food stuffs like mints, and/or utilitarian objects, such as screws, nails, nuts, bolts, etc., that can be used by the consumer. The closed volume can comprise human readable printed media on one side that identifies the volume as a stored value card and that identifies the contents being contained within the closed volume. The printed media can be formed from ink, or other writing materials, which is placed on a substrate that is attached to the closed volume by an adhesive. Alternatively, the printed media can be applied directly to a surface of the closed volume or human readable information can be carved from, or otherwise applied to, a surface of the closed volume.
On a second side of the closed volume a machine-readable code can be applied to a substrate which is attached to the closed volume by an adhesive. The machine readable code can take the form of at least one of a bar code, a radio-frequency (RF) Identifier, a magnetic stripe, an integrated circuit (IC), or any combination thereof. The machine-readable code can comprise an identifier that corresponds to a stored value account. A purchaser of the stored value token can set the value in the stored value account associated with the stored value token or this value can be set in predetermined increments by the manufacturer. Once purchased by the consumer and after activation of the token, which can occur when the machine-readable code is scanned by a reader, the bearer of the stored value token can use the value in the stored value account to purchase goods or services based on the value in the stored value account associated with the token. The stored valued token can be replenished for re-use or it can be a one-time use token.
According to an exemplary embodiment, the three dimensional volume of the stored value token can comprise a movable, triangular shaped door that allows access to a rectangular parallel-piped shaped, closeable volume. The triangular shaped door can comprise one of the four corners of the rectangular parallel-piped shaped closeable volume. The triangular shaped door can be formed by two sides of the volume and a rear portion of the volume may support the machine-readable code for the token. The rear portion forming the triangular shaped door may further comprise a seam that functions as a hinge for the door. The door may rotate about this hinge to allow access to the closed volume. The closeable volume has a length, width, and thickness in which the thickness generally corresponds to height of the objects contained within the volume. The length and width of the closeable volume can be sized such that they correspond to a standard or traditional card size similar to other money instruments like credit cards, integrated circuit (IC or smart) cards, debit cards, and the like.
According to another exemplary embodiment, the three dimensional volume of the stored value token can comprise a movable, rectangular shaped door that allows access to a rectangular parallel-piped shaped closeable volume. The rectangular door can be fastened to the closeable volume by at least one hinge which is positioned along a side of the closeable volume. The rectangular door may have a thickness that is less than a thickness of the remaining parts which form the closeable volume. The door may rotate about the hinge to allow access to the closed volume. The closeable volume has a length, width, and thickness in which the thickness generally corresponds to a size which is at least double the height of the objects contained within the volume. The length and width of the closeable volume can be sized such that they correspond to a standard or traditional card size similar to other money instruments like credit cards, IC cards, debit cards, and the like.
Referring now to
The three dimensional stored value token 100A may be constructed from one or more various materials. For example, the embodiment of the stored value token 100A illustrated in
The three dimensional stored value token 100A may have a length dimension L, a width dimension W, and a thickness dimension T. The length L and width W generally correspond with the length and width of cards used in financial transactions. In other words, the length L and width W can be selected to correspond with standard sized financial cards like debit cards, integrated circuit (IC) cards, and credit cards as used in industry. The length L and width W can correspond with Format ID-1 of the International Organization for Standardization (ISO) and the International Electrotechnical Commission (ISO/IEC) standard 7810. This means that the length L can comprise a magnitude of about eighty-five millimeters and the width W can comprise a magnitude of about fifty-four millimeters.
The thickness dimension T can be selected such that it generally corresponds with a thickness of a movable object being contained within the three dimensional stored value token 100A. That is, the thickness dimension T may be selected such that it is slightly larger than a maximum thickness of the objects being contained within the three dimensional stored value token 100A. The relationship between the thickness dimension T and the movable objects being contained within the stored value token 100A is discussed in further detail below in connection with
The three dimensional stored value token 100A may comprise a label 105 that has human-readable media 110A, 1108. The first human-readable media 110A may identify a type of consumer goods that may be purchased with the three dimensional stored value token 100A in addition to identifying the movable objects being contained by the token 100A. In the exemplary embodiment illustrated in
The second human-readable media 1108 may identify the invention as a stored value token 100A. However, other human-readable media 110 beyond those described for the label 105 are within the scope of the invention. The human-readable media 110 may be formed from ink or other marking media. The human-readable media 110 can be applied directly to a first surface or it may be applied to the label 105 that is attached to a first surface 107 of the three dimensional volume 100A. The human-readable media 110 can also be imprinted, stamped, or carved from a surface 107 of the three dimensional stored value token 100A.
The three dimensional stored value token 100A may have a door 115A that allows access to the volume defined by the stored value token 100A. In the exemplary embodiment of
As noted above, the movable objects 125A are not limited to consumer goods and particularly to seeds. Other consumer goods include, but are not limited to, edible food stuffs like mints, gum, and/or utilitarian objects that can be used by the consumer such as screws, nails, nuts, bolts, needles, tacks, washers, etc. In view of the various objects that can be contained within the closed volume defined by the stored value token 100A, it is understood that the shapes of the objects 125A are not limited to the cylindrical shapes representing the seeds and may have numerous shapes without departing from the invention.
The diagonal seam 133 illustrated in
For example, the thickness dimension t for the object 125A can comprise a magnitude of about 3/32 of an inch while the thickness dimension T for the stored value token 100A can comprise a magnitude of about 6/32 of an inch. The ratio defined by these magnitudes for the object thickness t to the stored value token thickness T is approximately 1:2. However, other dimensions and ratios smaller or greater than these exemplary magnitudes are within the scope of the invention. Each object 125A may have a different magnitude for its thickness dimension t such that there can be several magnitudes for the thickness dimension t. But all magnitudes for the thickness dimension t are less than the thickness dimension T for the stored value token 100A. This discussion of the thickness t for each object 125A may apply to all embodiments discussed in this specification.
The exemplary embodiment illustrated in
In the exemplary embodiment illustrated in
The door 115B has a first thickness dimension T1 while the remaining portion 310 of the token 100B can have a second thickness dimension T2. The first thickness T1 can have an exemplary magnitude of about 5/32 of an inch. The second thickness T2 can have an exemplary magnitude of about 25/32 of an inch. This means that, for this exemplary embodiment, the first thickness T1 has a thickness which is approximately one-fifth of the thickness T2 of portion 310. However, other magnitudes greater or less than those described above for the first and second thickness dimensions T1 and T2 are within the scope of the invention.
Meanwhile, the thickness t for the movable objects 125 as described above can have a magnitude of about 3/32 of an inch. This means the second thickness T2 dimension for the stationary portion 310 has a magnitude which is approximately eight times greater than the magnitude for the object thickness dimension t. However, other magnitudes greater or less than those described above for the thickness dimensions T2 and t are within the scope of the invention.
The hinges 505A, 505B can secure one end of the rectangular door 115B to the stationary portion 310 of the three dimensional stored value token 100B. The invention is not limited to the number of hinges 505 illustrated. The invention can include a fewer number or a greater number of hinges than the number illustrated. Further details of the hinges 505 will be described below in connection with
The machine-readable code 120 is illustrated with a rectangular in shape to denote a label which may receive printed media comprising the code 120. The code 120 is also illustrated with a certain size relative to the stationary portion 310. The code 120 can have sizes and shapes other than those illustrated. Similarly, while only three objects 125A are illustrated in
For the exemplary embodiment illustrated in
Referring now to
The machine-readable code 120 can be positioned on a side 1205E which remains stationary relative to the other four foldable sides 1205A, 1205B, 1205C, and 1205D. While only four foldable sides 1205 have been illustrated, the invention may include a fewer number or a greater number of foldable sides 1205 without departing from the scope of the invention. Further, while the foldable sides 1205 have been illustrated as a single unitary member, the invention can include sides 1205 which are separate from one another but which are glued together to form the enclosure. The material for the substrate 1205 can comprise paper. However, other materials, such as, but not limited to, metal, plastic, rubber, composites, and the like are included within the scope of the invention.
Further features of the token 100D include cover(s) with image(s) and/or text (feature 1420) associated with suggested use of the token 100D. The machine-readable code 120 that permits activation and value exchange is also a feature 1405 of the invention.
Step 1501 is the first step of method 1500 in which a three-dimensional container having a length L and width W corresponding with card transactions can be formed. That is, as noted above, the length L and width W of the stored value token can be sized according to one or more standards, such as standard ID-1 of the international organization for standardization (ISO) and the international electrotechnical commission (IEC) 7810 standard.
In step 1503, a cover 115 for accessing the volume within the three-dimensional container can be formed. The cover 115 can also be used for closing the volume contained by the three-dimensional container.
In step 1506, the three-dimensional container can be filled with movable objects 125 that may include consumer goods. The consumer goods can include, but are not limited to, plant seeds, edible food stuffs like mints, and/or utilitarian objects that can be used by the consumer such as screws, nails, nuts, bolts, etc.
In step 1509, a machine readable code 120 can be formed on a substrate with an adhesive as illustrated in
In step 1512, the machine-readable code 120 can be placed on the three dimensional container. Next, in step 1515, the three-dimensional token 100 can be fastened to display media 1305. The token 100 can be fastened to the display media 1305 with an adhesive or by a mechanical device, such as by cutouts in the display media 1305 that receive one or more corners of the stored value token 100.
In step 1518, the three dimensional stored value token 100 can be displayed for sale in a traditional store environment or on-line. If the three dimensional stored value token 100 is selected for purchase, the machine-readable code 120 is presented to a reader in step 1521. The reader can take on one or many forms. The reader can comprise a point of sale terminal, a kiosk, or other type of device. If the three dimensional stored value token comprises a plurality of machine-readable codes 120, such as illustrated in
In step 1527, the one or more codes 120 can be scanned by the reader. In optional step 1530 illustrated with dashed lines, value in the form of a set or predetermined currency denomination can be added to a stored value account associated with the three dimensional stored value token 100 which is maintained in a back-end database. For example, the manufacturer of the stored value token 100 may establish that the token 100 can be sold at a value of a set amount such as, for example, twenty U.S. dollars. Once the reader scans the machine-readable code 120, then the selected (and exemplary) set value of twenty U.S. dollars can be added to the stored value account associated with the token 100.
Alternatively, in optional step 1533 illustrated with dashed lines, after scanning the machine-readable code 120, the reader may prompt the purchaser of the token 100 to select a desired amount of value to be associated with the token 100. For example, the purchaser of the token 100 could select to associate a value of one-hundred U.S. dollars to the token 100.
Next, in step 1536, the value of the three dimensional stored value token 100 can be displayed to the purchaser. In this step, the reader may present the value to the purchaser on an electronic display such as a terminal screen or a liquid crystal display (LCD).
In step 1539, payment corresponding to the value of the three dimensional stored value token 100 can be received. In step 1542, the three-dimensional container of the stored value token 100 can be opened so that the movable objects 125, such as consumer goods, can be removed. Next, in step 1545, the three-dimensional stored value token 100 can be presented and received as payment in a store for one or more goods and/or services.
Next, in step 1547, the machine readable code 120 positioned on the token 100 can be scanned by a reader. Subsequently, in step 1550, the value from the stored value account associated with the token 100 can be retrieved and exchanged for the one or more goods and/or services being purchased. In optional step 1553, additional value can be received from the purchaser or another person in order to add additional value to the stored value account associated with the three dimensional stored value token 100. Optional step 1553 allows the three dimensional stored value token to be re-charged for re-use. The process then ends.
Alternative embodiments for the three dimensional stored value token 100 will become apparent to one of ordinary skill in the art to which the invention pertains without departing from its spirit and scope. Thus, although this invention has been described in exemplary form with a certain degree of particularity, it should be understood that the present disclosure is made only by way of example and that numerous changes in the details of construction and the combination and arrangement of parts or steps may be resorted to without departing from the scope or spirit of the invention.
This is a division of application Ser. No. 12/549,915, filed Aug. 28, 2009, entitled METHOD AND SYSTEM FOR PROVIDING A THREE DIMENSIONAL STORED VALUE TOKEN THAT CONTAINS MOVABLE CONSUMER GOODS,” the disclosure of which is incorporated herein in its entirety by this reference.
Number | Date | Country | |
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Parent | 12549915 | Aug 2009 | US |
Child | 13423180 | US |