The present invention relates to systems and methods for packaging portable USB storage devices. Portable USB storage devices, such as USB flash disks (or UFDs), are well-known in the art of digital computing, and are offered by many vendors. A typical example of such a USB storage device is a DiskOnKey™ portable memory available from M-Systems Inc. of Kefar Saba, Israel.
As the popularity of UFD devices increases and their prices decrease, there is a commercial need to price, package, and display them as mass-consumer products. One of the common methods of merchandising a mass-consumer product is to display it in an attractive package near the point of sale in appropriate retail stores. In the case of a UFD, typical retail stores include electronic stores, media stores, and department stores.
Since UFDs are intended to be carried by a person (typically in a pocket), and plugged into computers and other devices by hand, the consumer would appreciate the ability to “touch and feel” the body of the device prior to purchasing it as a part of his/her impulsive purchase behavior. Enabling the consumer to hold the UFD device for evaluation is a feature that is important in the promotion of selling the product at points of sale.
However, as the typical UFD device is small, and even a low-price UFD costs several dollars, it is risky for the store to place UFD devices near points of sale where a shoplifter can easily take the UFDs, and slide them into a pocket without paying for them. In order to prevent such theft, many expensive compact electronic devices are displayed in stores with a strong leash that connects them to the display stand. Such a solution is not feasible for UFDs because the number of units on display is typically too large to tie each unit to a leash.
Packaging a set of UFDs in a closed package would be secure, but denies the consumer the ability to touch and feel the device. Connecting each UFD individually to an open package would reduce the consumer's inclination to buy a package of multiple devices in a single purchase, and would be counterproductive to the sales effort.
It would be desirable to have a method of packaging a plurality of UFD devices in such a way that they would be considered by the consumer as a single package, reducing the likelihood of shoplifting, and yet will still allow the consumer to hold the UFD in a “touch and feel” manner. It would be further desirable to also permit the packaged UFD to be plugged into a computer to verify that it works properly, in case the consumer insists on testing the device before purchasing it.
For the purpose of clarity, several terms which follow are specifically defined for use within the context of this application. The term “UFD” is used in this application to refer to a USB flash disk. The term “equator” is used in this application to refer to the largest contour around a generally convex device, typically dividing the volume of the device into similar upper and lower halves. The term “substantially rigid” is used in this application to refer to a material that maintains its shape, but can be reversibly bent when force is applied.
The term “functionally configured” is used in this application to refer to a design element that is specially made for the purpose of packaging a device, and does not serve any other functional purpose. The term “inhibits” is used in this application to refer to making removal of a UFD too hard for a shoplifter to get the UFD out without being caught, but not so hard that a consumer can't remove the UFD after purchase. The term “unintended removal” is used in this application to refer to removal that occurs in a manner not intended by the manufacturer.
It is the purpose of the present invention to provide systems and methods for packaging one or more UFDs in a way that meets the objectives described above. The UFD of the present invention has a groove, composed of a set of one ore more recessions (or notches), along the equator of the UFD. These notches, which do not interfere with the typical areas of contact between the hand and the UFD, are used to hold in place a flat hard sheet, typically made of cardboard or plastic, which leaves essentially half of the width of the UFD exposed on each side of the sheet. The sheet typically is small enough to allow the consumer to easily grab both sides of the UFD with one hand. The consumer can touch, hold, and feel the UFD without interference of the sheet.
The sheet serves as an open package for the UFD. The sheet can be opaque or clear, and carry printed text and graphics between and around the opening that supports the UFD. Perforation lines between individual segments of the sheet allow a single package to be torn into smaller sections, in case the consumer wants to buy a smaller number of units, and not the full package. An aperture at the top of the sheet serves to hang the package at a point of sale.
The penetration of the sheet's tabs into the body of the UFD can be made deep enough so that pulling the UFD out of the sheet would require a substantial degree of force, necessitating the use of both hands. This feature further reduces the risk of unintended or illegal removal of a product from the package. Altogether, the present invention teaches a very effective method for packaging low-cost UFDs, serving the needs for security, aesthetic appeal, and functionality of the product.
Therefore, according to the present invention, there is provided for the first time a packaging system including: (a) at least one article of manufacture; and (b) a substantially-rigid and planar sheet; wherein each article of manufacture is functionally configured to be supported by the sheet within a respective aperture of the sheet.
Preferably, the functional configuration of each article of manufacture includes providing each article of manufacture with a periphery functionally configured to interact with the sheet in a manner that inhibits unintended removal of each article of manufacture from the sheet.
Preferably, the sheet includes an aperture for hanging at least one article of manufacture on a display rack.
Preferably, the system comprises two articles of manufacture, and the sheet includes at least one perforation line between the two articles of manufacture.
Preferably, at least one article of manufacture is a hand-held electronic device.
More preferably, the hand-held electronic device is a memory device.
Most preferably, the memory device is a UFD.
Preferably, each article of manufacture includes two components configured to be assembled in a manner that sandwiches at least a portion of the sheet, adjacent to the respective aperture of the sheet, between the two components, thereby supporting each article of manufacture by the sheet.
Preferably, each article of manufacture includes a connector for plugging into a socket of a host device.
Most preferably, the sheet is configured to be reversibly bent in order to expose the connector, thereby allowing the connector to be plugged into the socket.
There is provided for the first time a method of displaying at least one article of manufacture being offered for sale, the method including the steps of: (a) providing a substantially-rigid and planar sheet for supporting each at least one article of manufacture within a respective aperture of the sheet; (b) functionally configuring each at least one article of manufacture to be supported by the sheet within the respective aperture; and (c) inserting each at least one article of manufacture into the respective aperture so as to be supported by the sheet, thereby preparing the at least one article of manufacture to be displayed for sale.
Preferably, the step of inserting is: effected, for each article of manufacture, by assembling at least two components of the each article of manufacture.
Preferably, the step of functionally configuring is effected by functionally configuring a periphery of each article of manufacture to interact with the sheet in a manner that inhibits unintended removal of the each article of manufacture from the sheet.
Preferably, the method further includes the steps of: (d) configuring the sheet to be reversibly bendable in order to expose a connector of each article of manufacture for plugging each article of manufacture into a socket of a host device.
Preferably, the method further includes the steps of: (d) configuring an aperture in the sheet for hanging the sheet along with the at least one article of manufacture on a display rack.
There is provided for the first time a method of displaying two articles of manufacture being offered for sale, the method including the steps of: (a) providing a substantially-rigid and planar sheet for supporting each article of manufacture within a respective aperture of the sheet; (b) functionally configuring each article of manufacture to be supported by the sheet within the respective aperture; (c) inserting each article of manufacture into the respective aperture so as to be supported by the sheet; and (d) providing at least one perforation line in the sheet separating the two articles of manufacture, thereby preparing the two articles of manufacture to be displayed for sale.
These and further embodiments will be apparent from the detailed description and examples that follow.
The present invention is herein described, by way of example only, with reference to the accompanying drawings, wherein:
The present invention relates to systems and methods for packaging portable USB storage devices. The principles and operation for packaging portable USB storage devices, according to the present invention, may be better understood with reference to the accompanying description and the drawings.
Referring now to the drawings,
The height of each notch 36 (i.e. in the direction perpendicular to the plane of the drawing) is typically a few tenths of a millimeter larger than the thickness of sheet package 32. The length and width of sheet tabs 38 (i.e. in the direction parallel to the plane of the drawing) are typically slightly smaller than the corresponding dimensions of notches 36, allowing UFD 30 to move slightly about its position, but preventing UFD 30 from being extracted from its position without bending or tearing sheet package 32. Since sheet package 32 can be made of a tough material, the designer of sheet package 32 can make it hard or easy to extract UFD 30. Preferably, as mentioned above, extraction of UFD 30 from sheet package 32 requires sheet package 32 and UFD 30 to be held firmly in both hands, reducing the chance of unintended or illegal separation of the two components.
Since there are no notches in the side of UFD 44 containing USB connector 46, sheet package 42 is designed to bend around USB connector 46, enabling USB connector 46 to be plugged into a USB socket (not shown), either on a cable or in a device, for testing UFD 44 without damaging the integrity of sheet package 42.
While the invention has been described with respect to a limited number of embodiments, it will be appreciated that many variations, modifications, and other applications of the invention may be made.
This patent application claims the benefit of U.S. Provisional Patent Application No. 60/759,398 filed Jan. 18, 2006.
Number | Date | Country | |
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60759398 | Jan 2006 | US |