1. Technical Field
The present disclosure relates to carriers for personal effects, e.g., wallets, clutches and purses, and, more particularly, to personal carriers with a selectively accessible card holding pocket.
2. Description of the Related Art
Transaction cards carrying data are currently in widespread use around the world. For example, one common application of transaction cards is financial account management cards, such as credit cards and bank cards. The data associated with such financial management cards includes account numbers and related customer information, which can be used in conjunction with a worldwide network of card reading machines to pay for goods, conduct banking activities and transfer funds. The card reading machines have varying configurations designed to read and/or record the data associated with the card, including credit card readers at customer checkouts within stores, automatic bank teller machines (ATM's), and other devices.
Other applications for data-containing transaction cards include: identification, such as driver licenses and government-issued identification cards; employee access cards, for managing employee access and movement around employer property; student identifications, for managing individualized access to school campuses and student services; and other cards used for identification and/or the rendering of services. Yet another use of transaction cards includes customer loyalty cards, which are sometimes used by retailers to collect customer preference data at a point of sale.
One common method for associating data with a card is a magnetic strip overlaid onto a portion of one of the card's two broad faces. This magnetic strip can be passed through a card reader, such as by “swiping” the card along a unidirectional path through the card reader, i.e., from a reader inlet to a reader outlet. Typically, a user performs such swiping motion by grasping the nonmagnetic body of the card and passing the magnetic strip through the reader.
Another data associating technology includes bar codes, which may be printed on a portion of one face of the card and optically scanned by a bar code reader. Yet another data associating technology is radio frequency identification (RFID), in which the card includes an RFID “tag” containing an electromagnetic field coil. When the RFID tag is placed to into an electromagnetic field, the coil is induced to emit a coded identification number which may be read by the reader device.
For the magnetic strip and bar code data association methods, the strip or bar code must be physically presented to the reader device, and may not be covered or concealed. For RFID embedding technologies, the associated data may be read even if the RFID tag is covered, provided such covering does shield the RFID tag from the electromagnetic field.
Moreover, the magnetic strip method of associating data with cards is the predominant method utilized for credit cards and bank cards, which in turn are the predominant transaction cards in present circulation. Accordingly, substantial design efforts have been focused on providing systems for easily and efficiently carrying and presenting cards having data associated with the cards via magnetic strips.
For example, wallets and/or purses commonly include one or more card pockets designed to securely retain a standard-size transaction card within the wallet or purse until needed, at which time the card may be removed from the pocket, presented to a card reader, and then replaced. However, repeated removal and replacement of the card from the wallet card pocket increases the potential for the card to be damaged, lost, or misplaced.
Other designs include card holders which cover only a portion of the card while another portion of the card protrudes from the card holder to allow it to communicate with appropriate device interfaces. Such designs leave the information association technology, such as a magnetic strip, permanently exposed. Such card holders are often attached to lanyards, keychains or the like, and therefore render the card and, in particular, the magnetic strip, vulnerable to damage and abrasion during transport and storage.
What is needed is an improvement over the foregoing.
The present disclosure provides a personal card carrier configurable into open and closed positions, in which both broad faces of a contained card are effectively covered and protected against loss in the closed position, but are uncovered in the open position such that a data-containing portion of the card is presentable to a card reader without necessitating removal of the card from the carrier.
To achieve this arrangement of open and closed configurations, the card may be contained in a high friction card pocket disposed at the edge of a card-carrying flap of the personal card carrier, such that a data interface protrudes beyond the edge of the card-carrying flap. The card-carrying flap is foldably or hingedly connected with a card carrier body, which in turn is foldably or hingedly connected to the carrier body. The flaps may be folded over the card to completely cover the exposed card faces. More particularly, when the first flap is folded into abutting engagement with the carrier body, one entire broad face of the card contained within the high-friction pocket abuts the material of the central body, such that the central body presents a barrier against abrasion for one of the two broad faces of the card. The cover flap, which is foldably or hingedly connected to the central body opposite the first flap, may then be folded over the first flap to effectively cover the remaining exposed broad face of the card and thereby present a physical barrier to abrasion or damage of the second exposed broad face.
Further, the spacing of the central body of the personal card carrier between the hinges or folds connecting the central body to the first and second flaps may be designed to prevent migration of the card out of the pocket on the first flap when the personal card carrier is in the fully closed position, thereby preventing inadvertent loss of the card when the personal card carrier is closed.
In one form thereof, the present invention provides a personal card carrier for use in carrying a transaction card having a first broad face and a second broad face, the carrier comprising: a central body defining a pair of edges, the central body having a carrier flap pivot at one of the pair of edges and a cover flap pivot at the other of the pair of edges; a carrier flap pivotably connected to the central body via the carrier flap pivot, the carrier flap pivotable about the carrier flap pivot between a closed carrier configuration and an open carrier configuration, the carrier flap comprising: a card pocket protruding inwardly from an edge of the carrier flap and including an opening disposed along the edge of the carrier flap, the card pocket sized to receive the transaction card along an insertion/removal direction, the edge of the carrier flap disposed adjacent to the central body in the closed carrier configuration with the opening of the card pocket adjacent to the central body, and the edge of the carrier flap spaced from the central body in the open carrier configuration such that the opening of the card pocket opens away from the central body, and the insertion/removal direction defined by the card pocket is unimpeded by the central body; and a cover flap pivotably connected to the central body via the cover flap pivot, the cover flap pivotable about the cover flap pivot between a closed cover configuration and an open cover configuration, wherein the cover flap is one of abutting and adjacent to the central body in the closed cover configuration such that a space adjacent the opening of the card pocket is substantially covered by the cover flap when the cover flap is in the closed cover configuration; whereby the personal card carrier is adapted to cover the first and second broad faces of the transaction card when the cover flap and the carrier flap are in their respective closed configurations.
In another form thereof, the present invention provides a personal card carrier system comprising: a transaction card having a first broad face and an opposing second broad face each defining first and second dimensions perpendicular to one another; a personal card carrier comprising: a central body defining a pair of edges, the central body having a carrier flap pivot at one of the pair of edges and a cover flap pivot at the other of the pair of edges; a carrier flap pivotably connected to the central body via the carrier flap pivot to define a carrier flap pivot axis, the carrier flap pivotable about the carrier flap pivot between a closed carrier configuration and an open carrier configuration; a cover flap pivotably connected to the central body via the cover flap pivot to define a cover flap pivot axis, the cover flap pivotable about the cover flap pivot between a closed cover configuration and an open cover configuration; a card pocket protruding inwardly from an edge of the carrier flap and including an opening disposed along the edge of the carrier flap, the card pocket sized to receive a captured portion of the transaction card along an insertion/removal direction while leaving an exposed portion of the transaction card protruding outwardly from the edge of the carrier flap; the central body, the carrier flap and the cover flap dimensioned to cover the first and second broad faces when the carrier flap is in the closed carrier configuration and the cover flap is in the closed cover configuration; and the exposed portion of the transaction card uncovered when the carrier flap is in the open carrier configuration, such that a portion of the first and second broad faces of the transaction card are exposed.
In yet another form thereof, the present invention provides a method of transferring data from a card to a card reader, the method comprising: opening a personal card carrier by unfolding a cover flap and a carrier flap from a central body of the personal card carrier, the step of opening comprising exposing opposing broad faces of the card while leaving the card secured in a card pocket formed on the carrier flap; grasping the personal card carrier by one or more of the central body, the carrier flap, and the cover flap; presenting, during the step of grasping, a data-containing portion of the card with the card reader to transfer data between the card and the card reader, the step of engaging occurring while the card remains secured in the card pocket; and closing the personal card carrier by folding the cover flap and the carrier flap into a closed configuration, the step of closing comprising covering the opposing broad faces of the card which were previously exposed in the opening step.
The above mentioned and other features and advantages of the present disclosure, and the manner of attaining them, will become more apparent and the invention itself will be better understood by reference to the following description of embodiments of the invention taken in conjunction with the accompanying drawings, wherein:
Corresponding reference characters indicate corresponding parts throughout the several views. The exemplifications set out herein illustrate exemplary embodiments of the invention, and such exemplifications are not to be construed as limiting the scope of the invention in any manner.
The present disclosure provides personal card carrier, such as wallet 10 shown in
In the closed configuration, both broad faces of card 30 (i.e., printed face 36 and the opposing data containing face 32) are effectively covered by central body 12, carrier flap 14 and cover flap 16. In the closed configuration, the interior space allotted for containing and protecting card 30 is sized to present a physical barrier to removal of card 30 from pocket 22 (
Referring to
Optionally, friction strip 24 (
When card 30 is inserted into pocket 22 along direction D (
The illustrative embodiment of
In an exemplary embodiment, friction strip 24 is made of silicone, which has been found to provide an ideal frictional interaction with the plastic material of typical transaction cards 30. However, it is contemplated that friction strip 24 may be made of a material other than silicone, such as rubber, leather, suede, polymers or foams, for example. Moreover, any high friction material arrangement bearing against one or both of broad faces 32, 36 of card 30 may be employed in a similar fashion. For example, the material of pocket 22 and/or carrier flap 14 may itself be formed from a high friction material, thereby obviating the use of a separate friction strip 24. In addition, the pressure applied to one or both of broad faces 32, 36 may be increased to provide increased friction, such as by positioning a pair of opposing-polarity magnets on either side of pocket 22 to “pinch” card 30 within pocket 22, using elastic or other resiliently deformable material for pocket 22, or using a rigid material for pocket 22 that is sized to provide an tight or interference fit with card 30 upon insertion into pocket 22.
As noted above, wallet 10 may be reconfigured into a closed configuration in which faces 32, 36 of card 30 are protected against abrasion or other damage, and in which flaps 14, 16 present a physical barrier to removal of card 30 from pocket 22. Thus, wallet 10 may be closed to insure against loss or damage of card 30 during transport and storage.
Central body 12 of wallet 10 includes a pair of mutually opposed edges, with carrier flap 14 connected to one of the edges via carrier flap pivot 18 and cover flap 16 connected to the other of the edges via cover flap pivot 20. As used herein, the term “pivot” refers to any relative angular movement between two bodies about a pivot axis. Structures for pivotably connecting such bodies to one another include mechanical hinges, material folds and the like.
Carrier flap 14 of wallet 10 includes pocket 22 which is structured and arranged to allow selective, rapid deployment of magnetic strip 34 of card 30 while also protecting broad faces 32, 36 of card 30 against abrasion or other damage. In an exemplary embodiment, the opening of pocket 22 is positioned substantially coincident with, or along, the edge of carrier flap 14 generally opposite carrier flap pivot 18. This arrangement allows card to protrude outwardly from carrier flap 14 such that broad faces 32, 36 are both substantially exposed, while keeping card 30 in secure fixed engagement with carrier flap 14.
Carrier flap pivot 18 defines carrier flap pivot axis A1 and cover flap 20 defines cover flap pivot A2 (
Advantageously, when carrier flap 14 is disposed in the closed configuration shown in
Next, cover flap 16 is folded about cover flap pivot 20 by about 180 degrees, such that cover flap 16 effectively covers printed face 36. As shown in
In an exemplary embodiment, cover flap 16 slightly overlaps the edge of carrier flap 14 including the opening to pocket 22 when cover flap 16 is in the closed configuration. This coverage of the space around the opening of pocket 22 both secures the closure of wallet 10, and ensures coverage of printed face 36 without any coverage gaps. Thus, when card 30 is received within pocket 22 and wallet 10 is in the closed configuration, broad faces 32, 36 of card 30 are substantially sequestered from their surroundings.
Optionally, clasp 40 may be used to secure wallet 10 in the closed configuration, as illustrated in
Turning now to
However, as best seen in
Therefore, the potential travel of card 30 within wallet 10 is insufficient to allow card 30 to be freed from pocket 22 when wallet 10 is in the closed configuration. More specifically, card 30 can only move by clearance distance 28 until encountering a physical barrier in the form of the material of cover flap 16 and/or central body 12 in the region of cover flap pivot 20. Because clearance distance 28 is substantially less than captured distance 26, card 30 will encounter a physical barrier to further movement along direction D prior to becoming fully dislodged from pocket 22. Further, because the sides of pocket 22, i.e., the portions of pocket 22 extending along a direction generally parallel to direction D, are sewn shut or otherwise affixed to the material of carrier flap 14 (as shown in
In one exemplary embodiment, wallet 10 is sized to receive a card having a faces 32, 36 defining a height of approximately 2⅛ inches and a width of approximately 3⅜ inches (where height and width are measured perpendicular to one another along faces 32, 36 in a conventional fashion). As this is a standard card size for various types of financial services cards, identification cards, customer loyalty cards, and the like, wallet 10 is universal to a large plurality of cards currently in use. Where this “standard-size” card pocket 22 is used in the context of the exemplary design of
For such standard size cards, captured distance 26 may be as little as ¾ inch, ⅞ inch or 1⅛ inches, and as large as 1¼ inches, 1⅜ inches, or 1½ inches, or may be any value within any range defined by the foregoing values. Clearance distance 28 may be less than captured distance 26 by as little as ⅛ inch, ¼ inch, or ⅜ inch, or as may be as large as ½ inch, ⅝ inch, or ¾ inch, or may be any value within any range defined by the foregoing values. In one exemplary embodiment shown in
However, it is contemplated that other dimensions may be used to accommodate other cards or documents, such as non-standard card sizes, passports and the like. Moreover, it is also contemplated that such dimensions may be altered as required or desired for a particular design, such as where the data association with card 30 is accomplished by other than magnetic strip 34, such as by an optically readable barcode, printed text or an RFID tag, for example. It is noted that where wallet 10 is used in conjunction with cards whose data is embedded by an RFID tag, the material of wallet 10 may provide electromagnetic shielding to prevent unwanted scanning of the embedded data. Advantageously, the quick-access design described herein may be employed to remove such electromagnetic shielding and therefore allow the RFID tag to be selectively exposed to a reader in a similar fashion to magnetic strip 34 and reader 38.
Wallet 10 may optionally include a variety of other features to enhance the versatility and usability thereof For example, an internal pocket 60 may be provided in central body 12 and toggled between open and closed positions by zipper 62 including zipper pull 64. Zipper 62 and zipper pull 64 are shown in their open configurations in
A card display window 70 (
Pocket 22 in accordance with the present disclosure may be incorporated into any number of other personal card carrier designs in accordance with the present disclosure, including wristlets, purses, handbags, clutches, totes, lanyards, duffels, backpacks, lunch-type bags, and the like. For example, as illustrated in
However, clutch 110 is larger in size compared to wallet 10, such that internal pocket 160 is also enlarged and capable of containing larger and more numerous items. Carrying strap 168 replaces key ring 68 to facilitate stand-alone carrying of clutch 110 secured to the user's wrist or shoulder. A pair of male clasp portions 42 are provided, such that a pair of clasps 40 secure clutch 110 in the closed position rather than the single clasp 40 described above.
Moreover, it is contemplated that any arrangement of pocket 22 with respective carrier flap and cover flap pivots similar to pivots 18, 20, 118, 120 may be utilized to integrate the high security, damage protection, and ease-of-access features of wallets 10 and clutch 110 as described herein.
In use, wallet 10 may be stowed and transported in the closed configuration (
The unfolded configuration of wallet 10, ready for use with card reader 38, is shown in
Advantageously, the direction D of insertion of card 30 into pocket 22 is perpendicular to the direction D′ utilized when engaging card 30 with card reader 38. This perpendicularity of the card insertion and use directions, combined with the optional high friction provided by friction strip 24 (
While this invention has been described as having an exemplary design, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.
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