A security tag system is designed to prevent unauthorized removal of an item from a controlled area. For example, a typical Electronic Article Surveillance (EAS) system may comprise a monitoring system and one or more security tags. The monitoring system may create a surveillance zone at an access point for the controlled area. A security tag may be enclosed in a security device that is secured to the monitored item, such as an article of hard goods, e.g., sporting equipment, eye wear, jewelry, bottles, and the like. If the monitored item enters the surveillance zone, an alarm may be triggered to indicate unauthorized removal.
When the monitored item is sold, a cashier may remove the security device using a detacher.
It may be desirable to have a detacher and associated system that make such removal more difficult where not authorized, such as for an unsold item. Consequently, there may be a need for improved techniques in security devices and detachers in general, and systems for securing and detaching the security devices in particular.
The subject matter regarded as embodiments is particularly pointed out and distinctly claimed in the concluding portion of the specification. Embodiments, however, both as to organization and method of operation, may best be understood by reference to the following detailed description when read with the accompanying drawings in which:
Embodiments may be directed to apparatuses, systems and methods for selectively detaching security devices from articles when authorized.
The security devices may include a security tag and may thus pair an article, such as a compact disc (CD), sporting equipment, eye wear, jewelry, bottles, and the like, with a security tag. For example, one embodiment may include a security device comprising a locking mechanism, security tag, and a housing. The locking mechanism may comprise a magnetically actuable latch, a flexible element that biases the magnetically actuable latch toward a locking position, and a latch mating element that mates with at least a portion of the magnetically actuable latch in the locking position. As used herein, the “locking position” may refer to the position of the magnetically actuable latch in which it is partially or fully within a void of, in engagement with, joined with, or otherwise mated with the latch mating element. The housing may be a structure configured to partially or fully contain, enclose, or otherwise secure the locking mechanism, security tag, latch mating element, and the article to the housing. As secured, the magnetically actuable latch of the locking mechanism may mate with the latch mating element in the locking position to lock the housing, and thus the security tag with which the housing is secured, to the article. When the housing is locked, the security device may prevent or provide resistance to an attempt to separate the housing from the article. Another embodiment may include a security system comprising the security device and a detacher, which may be a device that includes a magnet. The detacher may be employed to unlock the housing by magnetically forcing the magnetically actuable latch away from the locking position.
It is worthy to note that any reference in the specification to “one embodiment” or “an embodiment” means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment. The appearances of the phrase “in one embodiment” in various places in the specification are not necessarily all referring to the same embodiment.
Numerous specific details may be set forth herein to provide a thorough understanding of the embodiments. It will be understood by those skilled in the art, however, that the embodiments may be practiced without these specific details. In other instances, well-known methods, procedures and components have not been described in detail so as not to obscure the embodiments. It can be appreciated that the specific structural and functional details disclosed herein may be representative and do not necessarily limit the scope of the embodiments.
Referring now in detail to the drawings wherein like parts are designated by like reference numerals throughout, there is illustrated in
The locking mechanism 10 may be a magnetically actuable locking mechanism, and may include a magnetically actuable latch 12, flexible element 16, and latch mating element 18.
The magnetically actuable latch 12 may include a base portion 13, which may include a base portion end 13A and side surfaces 13B and 13C; and a latching portion 14, which may include a latching portion end 14A; and a central portion 15.
The magnetically actuable latch 12 may have a substantially rectangular-shaped face such that the base portion 13 has the same width as both the latching portion 14 and central portion 15. Thus, the width of the base portion 13, or the distance between the side surfaces 13B and 13C, may be the same as the corresponding widths of the latching portion 14 and central portion 15. In other embodiments, the widths of the base portion 13, latching portion 14, and central portion 15 may differ. The magnetically actuable latch 12 may have a slender, uniform cross-section.
However, the magnetically actuable latch 12 may be configured as desired, may comprise one or more pieces, and may be symmetrical or unsymmetrical about any point, line, or plane. For example, in various embodiments the magnetically actuable latch 12 may be configured with a “T”, “I”, curved, or other shape of face and with a rectangular, circular, thick, hollow or otherwise voided, and/or non-uniform cross-section, or as shown and/or described herein with respect to embodiments of the any of the magnetically actuable latches, such as 112, 512, 912, 1512, and 2112. In another embodiment, the latching portion end 14A of the magnetically actuable latch 12 may include one or more teeth, ribs, notches, jags, points, curves, voids, or other shapes such as those shown and/or described herein with respect to embodiments of the magnetically actuable latches 112, 512, 912, 1512, and 2112, while the base portion end 13A may be flat or another shape. In addition, the base portion end 13A may be continuous or discontinuous. The magnetically actuable latch 12 may be configured such that at least a portion of it, such as the latching portion 14, may engage, receive, insert into, or otherwise mate with the latch mating element 18, such as described herein.
In one embodiment, a security device 2 includes multiple magnetically actuable latches 12, which may be disposed, possibly each along with another flexible element 16 and latch mating element 18, in the same or different portions of the security device 2. For example, in one embodiment, the multiple magnetically actuable latches 12 may each cooperate with another portion of the security device 2 to lock the portion, such as, for example, a portion securing an article or a portion securing a security tag 20.
The magnetically actuable latch 12 may comprise or may be formed of a magnetic material such as iron, nickel, or cobalt, or an alloy of iron, nickel, or cobalt. In one embodiment, the magnetically actuable latch 12 includes one or more magnetic materials and may also include one or more nonmagnetic materials.
The flexible element 16 may be shaped as desired, such as in a cuboid, ellipsoid, coil, or any other shape such as shown and/or described herein with respect to the embodiments of the flexible elements 116, 516, 916, and 1516, and may include one or more pieces, or may be combined or integrally formed with the magnetically actuable latch 12. In one embodiment, the flexible element 16 may be shaped as a cantilever arm, such as, for example, a leaf spring. The flexible element 16 may comprise or may be formed of a flexible material such as a light, porous, semirigid, elastic, gaseous, and/or spongy material that may provide a resistant force when compressed and may partially or fully recover its uncompressed shape when the compressive force is removed. For example, in various embodiments, the flexible element 16 may comprise or may be formed of a foam rubber, polymeric foam, ceramic foam, or other foam; a rubber; and/or another material or materials. The flexible element 16 may also or alternatively be configured to provide the resistant force when compressed. For example, in various embodiments the flexible element 16 may be configured as a coil, leaf or other cantilevered arm, or other spring, or other like member, that comprises a metal, polymer, ceramic, and/or another material or materials. The flexible element 16 may have any of various masses.
The latch mating element 18 may be configured as desired, such as with one or more holes or other voids, ribs, teeth, protrusions, or other shapes. The latch mating element 18 may include one or more pieces, and may be separate from or integral with the housing 30, such as described herein. The latch mating element 18 may be configured to engage, receive, insert into, or otherwise mate with at least a portion of the magnetically actuable latch 12. For example, in an embodiment where the magnetically actuable latch 12 is a slender member with a rectangular shape of face, the latch mating element 18 may be configured with a void in which the latching portion 14 of the magnetically actuable latch 12 or a part thereof may be inserted into the locking position, as described herein. In an embodiment where the magnetically actuable latch 12 is toothed at its latching portion end 14A, the latch mating element 18 may be configured with ribs that engage the teeth in the locking position.
The security tag 20 may be any detectable device or system, such as any security tag or label. For example, in various embodiments the security tag 20 may be any type of EAS tag (e.g., Radio Frequency (RF) tag, acousto-magnetic tag, and/or combinations thereof), Radio Frequency Identification (RFID) tag, smart tag, or other detectable anti-theft or other tag. For example, the security tag 20 may be a combination of two or more such tags. In one embodiment, the security tag 20 is a combination EAS and RFID tag comprising both EAS and RFID technologies.
The security tag 20 may be detectable by a corresponding detecting system or device, such as, depending on the type of security tag or label, an acousto-magnetic detector, electromagnetic detector, radio frequency detector, or other detector, or a combination of more than one detector.
The housing 30, as partially shown in the embodiment of
The components included in the security device 2 may be configured such that the security device 2 may lock to an article, such as described with respect to the security device embodiments below. The security tag 2 may be reusable or may be for one-time use.
In various embodiments, the detacher 40 may include different magnets 42. For example, the magnet 42 of the detacher 40 may be selected based upon the magnetic force needed to move the magnetically actuable latch 12 away from the locking position, thus unlocking the security device 2. This magnetic force may need to more than offset the forces opposing the movement. Such opposing forces may include, for example, the resistant force provided by the flexible element 16 when it is compressed by the magnetically actuable latch 12, frictional forces caused by the magnetically actuable latch 12 contacting the housing 30 and/or another element during movement, and other forces. In another embodiment, where a detacher 40 is intended to be used on various security devices having different configurations, such as one or more of the security device embodiments 2, 102, 502, 902, 1702, and 2102 described herein, a magnet 42 may be selected that is strong enough to unlock the security device requiring the strongest magnet to unlock it.
In another embodiment, a detacher 1800, such as described with respect to the embodiments of
The detacher 1800 may include a detacher housing 1810 and a magnet 1820. The detacher 1800 may also include a motor 1830 coupled with the magnet 1820, and which may move the magnet 1820, such as described below.
However, the lower portion 1812, upper portion 1814, top end 1816, and nest 1818 may be variously shaped in other embodiments, and may be shaped to conform to a variety of shapes of security devices. For example, the nest 1818 may be shaped and sized to be able to receive at least a portion, possibly in a certain orientation or within a range thereof, of one or more security devices such as 2, 102, 502, 902, 1702, and 2102, used to secure a variety of articles. Each such security device portion may include a volume of a security device adjacent to and/or including its magnetically actuable locking mechanism. The detacher housing 1810 may, in various embodiments, comprise one or more separate parts, which may be secured to each other or otherwise to the detacher 1810 by one or more of welding, fusing, gluing, taping, snap-fit, interference fit, and other securing means.
The detacher housing 1810 may comprise one or more plastics and other nonmagnetic materials, which may minimize interference with the interaction between the magnetically actuable latch of a security device described herein and the magnet 1820 as the security device is being unlocked. However, in various embodiments, one or more magnetic materials, such as certain metals, alone or in combination with one or more nonmagnetic materials, may be included in the detacher housing 1810.
In one embodiment, the detacher housing 1810 may comprise a retail counter, a table, a desk, or another structure or structures, or a portion thereof. For example, the detacher housing 1810 may comprise a portion of a counter top, and possibly surrounding portions of the counter housing or other support. One or more portions of the detacher 1800 described below and herein, such as the magnet 1820, motor 1830, shield, security tag antenna 1848, security tag reader, and/or infrared or other proximity detector, for example, may be coupled with the countertop and/or to each other. The coupling may be by way of a flush mount or other mount, or other method of affixation, for example. The portions of the detacher 1800 may be coupled vertically, horizontally, or in another orientation. In an embodiment, the structure, structures, or portions thereof comprising the detacher housing 1810 may enclose or otherwise secure some or all of the detacher 1800 portions.
A motor 1830 may drive or otherwise be coupled with the magnet 1820, such that the motor 1830 may operate to move the magnet 1820, and to thus move the magnet 1820 relative to the housing 1810 and thus the nest 1818. The motor 1830 may move the magnet 1820 in a direction perpendicular or close to perpendicular to the top end 1816 of the detacher housing 1810 in an embodiment where the top end 1816 is planar. In an embodiment where the nest 1818 is partially cylindrical as described above, the central axis of the cylindrical portion may be perpendicular or close to perpendicular to the planar top end 1816. Thus, the magnet 1820 may move parallel to the central axis of the cylindrical portion. In one example, a magnet's magnetic field strength at a point may vary in an inverse relationship to the distance from the magnet. For example, the magnetic field strength may vary approximately inversely to the square of the distance from the magnet 1820 or otherwise in a roughly exponential inverse relationship relative to such distance. In this example, such movement of the magnet 1820, even a short distance, may significantly alter the magnetic force that will be applied on a magnetically actuable latch 12 positioned near or at least partially within the nest 1818.
In one embodiment, the detacher 1800 may include a shield for the magnet 1820. The shield may obstruct the magnetic field of the magnet 1820 from being emitted in certain directions or areas, and may focus the magnetic field, or a portion thereof, in the nest 1818 or other area. The shield may be mounted to, or otherwise coupled with or disposed within, the detacher housing 1810 or another portion of the detacher 1800. The shield may comprise one or more magnetic materials, and may also comprise one or more nonmagnetic materials.
In another embodiment, the motor 1830 may move the magnet 1820 in a direction other than perpendicular or close to perpendicular to the top end 1816, but still in a direction toward or away from the nest 1818. The position of the magnet 1820 relative to the nest 1818 may determine whether there exists a sufficient magnetic field within or near the nest 1818 to open a security device.
For example, as shown in the embodiment of
In another embodiment, the magnet 1820 moves relative to the housing 1810 and thus the nest 1818 as described above, but instead of the magnet 1820 moving, the housing 1810 moves. The motor 1830 or another motor may be coupled with the housing 1810, and the magnet 1820 may be secured to a portion of the detacher 1800 other than the housing 1810. In another embodiment, the magnet 1820 and housing 1810 may each have a motor to cause its movement.
In one embodiment, the detacher 1800 may operate with point-of-sale (POS) equipment or a system, such as a system including a POS device or devices at a retail check-out lane (e.g., a POS terminal, a bar code scanner or other retail scanner) and a computerized network coupled thereto. For example, in one embodiment, a security system includes the detacher 1800 and the POS system or a portion thereof, and may also include or be employable with one or more of the security devices 2, 102, 502, 902, 1702, and 2102 described herein, for example.
In this embodiment, the system may set a default position of the magnet 1820 within the detacher 1800. The default position may be at least enough distance from the nest 1818 such that the magnetic field strength it provides within the nest 1818 is insufficient to force movement of a magnetically actuable latch of any security device positioned therein. When an article having a security device secured thereto has its bar code or other identifier, which may be included as part of the security tag, scanned or otherwise entered into the POS system during sale to a customer, the system may identify the article and may designate the security device as authorized for removal. The security system may then enable the detacher 1820 by prompting the motor 1830 to move the magnet 1820 closer to the nest 1818, to a position in which the magnet 1820 provides a magnetic field strong enough to unlock the security device. When the magnetically actuable latch of the security device is positioned near or within the nest 1818 and oriented such that the resultant magnetic force will move the latch away from the locking position, the security device may be unlocked and removed from the article. In various embodiments, the magnetic field strength and resultant magnetic force, along with the force required to unlock the security device, may be customized by varying the size, shape, positioning, and/or material of one or more of the magnet 1820, magnetically actuable latch, and biasing element, for example. As described above with respect to the detacher 40 and security device 2, for example, the force needed to move the magnetically actuable latch 12 may also include various other components such as movement-opposing frictional forces and other forces.
In various other embodiments, the criteria for authorizing removal of the security device from the article may be set by a security system manager or other user as desired.
In another embodiment, the security system includes, in addition to the detacher 1800, POS system or portion thereof, and one or more security devices such as 2, 102, 502, 902, 1702, and 2102 described herein, a security tag interrogator or portion thereof. The security tag interrogator may include a security tag antenna and a security tag reader. In one embodiment, the interrogator, or one or more components thereof, is included as part of, and disposed within or otherwise coupled with, the detacher 1800. For example, the security tag reader may be positioned near or within the detacher housing 1810. The antenna may be embedded, positioned within, or otherwise disposed in the detacher housing 1810 near the nest 1818, such as in the position of the antenna 1848.
In one embodiment, the antenna 1848 may be positioned between the top end 1816 of the detacher housing 1810 and the magnet 1820. In another embodiment in which a shield is included for the magnet 1820, such as described above, the antenna 1848 may be positioned between the shield and the top end 1816 of the detacher housing 1810.
In one embodiment, the security tag reader and antenna are both disposed or embedded in the detacher 1800 and are coupled to each other by cable or wirelessly. In another embodiment, the security tag reader, antenna, or both are disposed outside of the detacher. For example, the security tag reader and antenna may both be mounted next to the detacher 1800.
In an embodiment of the security system having a security tag interrogator or portion thereof, the security devices used may each include a security tag that is an RFID tag, and the security tag read by the antenna and reader may respectively be an RFID antenna and RFID tag reader. Where a security device 2, for example, has been authorized for removal from a scanned article such as described above, the security system may require the RFID tag of the security device 2 to be detected by the RFID antenna and read by the RFID tag reader before enabling the detacher 1800. When the security device 2 is positioned such that the magnetically actuable latch 12 is near or at least partly within the nest 1818 of the detacher 1800, the RFID antenna and tag reader may cooperate to obtain information from the RFID tag of the security device 2. That information may be processed by the security system, which may then enable the detacher 1800 by prompting appropriate movement of the magnet 1820 to unlock the security device.
In one embodiment, that information may include a category of articles or types of articles, e.g., “circular optical discs,” to which a security device having that security tag may be secured. If the article scanned is included within that category, the security system may then enable the detacher 1800 to unlock the security device. Such a system may prevent a less expensive article from being scanned while a security device securing a more expensive article is removed using the detacher 1800. Thus, the RFID antenna and tag reader, through a positive sensing and reading of the RFID tag, can determine if the magnet 1820 should be positioned up, in an enabled position closer to the nest 1818, or if the request to enable the detacher 1800 is unauthorized, in which the detacher 1800 is to remain disabled in the down position. In an embodiment where the RFID tag of a security device includes an embedded bar code or other article identifier, the RFID antenna and tag reader can cooperate to identify the specific article secured by the security tag to be detached. In this embodiment, the security system may only enable the detacher 1800 if the identified article matches the identity of the article that was scanned for sale. If the security system either did not recognize the security tag read or identified an article other than the article scanned, the security system may be designed to automatically alert a store manager such as by pager or email, or alternatively activate controllable cameras to record the event for later review.
In various other embodiments of the security system, the criteria for enabling the detacher 1800 may be further or alternatively customized. For example, in one embodiment, the detacher 1800 may be automatically enabled when a cashier or other user successfully logs on to a POS terminal. In another embodiment, the system may operate such that the detacher 1800 is enabled for only a limited time once a valid ID barcode or other identifier of an article has been scanned by the POS system or device. In one embodiment, any of the aforementioned enablement criteria may be overridden by a manager or other user, such as by a keyed switch.
In another embodiment, the security tag antenna and reader may be for a security tag other than an RFID tag, or for a combination of tags or their respective technologies. For example, the security tag antenna and reader may be for a combination EAS and RFID tag, and may thus combine sensing and reading abilities for both EAS and RFID technologies.
In another embodiment, a security tag used in the security system may be a combination security tag, but the security tag antenna and reader may only operate with one of the technologies. In this embodiment, another antenna and reader, included in or external to the security system, may operate with the other technology.
In another embodiment, the detacher 1800 and/or the security tag antenna and reader may include an integral bar code scanner or other article identifier. In this embodiment, the security system may or may not otherwise include a bar code scanner or other article identifier with its POS system. However, the security system may include both article identifiers to further bolster the security system.
In another embodiment, the security system may provide user-selectable operational modes to enable the detaching of some security devices, such as those having non-intelligent security tags, while preventing the detaching of security devices having other security tags, such as certain RFID security tags and/or other intelligent security tags, until an RFID security tag authorizing removal of its associated security device is recognized.
For example, in one embodiment, the security system may designate discrete positions of the magnet 1820 relative to the nest 1818. The security system may associate these positions with different categories of security devices and/or their associated articles to be secured. The security system may prompt movement of the magnet 1820 to appropriate positions, based upon information scanned from the article identifiers or read from the security tags as described above and herein. The system may designate a bottom most position of the magnet 1820 relative to the detacher housing floor 1845, or position of greatest distance from the nest 1818, such that the detacher 1800 cannot unlock any security tag positioned at least partially within the nest 1818.
The security system may designate a magnet 1820 intermediate position in which the detacher 1800 can unlock only certain of the security devices 2, 102, 502, 902, 1702, and 2102, for example, positioned near or at least partially within the nest 1818. The intermediate position may be designated for lower-level security devices, such as those to be attached to inexpensive items. Lower-level security devices may include magnetically actuable locking mechanisms configured such that they may be unlocked when subjected to the magnetic field in or near the nest 1818 when the magnet 1820 is in the intermediate position. For example, a lower-level security device 2 may include a magnetically actuable locking mechanism 10 designed to be unlocked with a relatively lower magnetic field. For example, the magnetically actuable locking mechanism 10 may include a magnetically actuable latch 12 that has a low mass and/or or is highly magnetic; a resilient element 16 that is easily compressible; and/or a configuration that minimizes friction when the magnetically actuable latch 12 moves.
The security system may also designate a top or highest magnet 1820 position, or position of least distance from the nest 1818, to provide the greatest magnetic field strength within or near the nest 1818. When the magnet 1820 is in this highest position, the detacher 1800 may unlock all lower-level security devices, such as 2, 102, 502, 902, 1702, and 2102, positioned partially within or near the nest 1818. Additionally, the magnet 1820 may be able to lock some or all higher-level security devices 2, 102, 502, 902, 1702, and 2102 that the detacher 1800 may be unable to unlock when its magnet 1820 is in the intermediate position. Articles secured by higher-level security devices may be more expensive than those secured by lower-level security devices, for example.
In one embodiment, the magnet 1820 is an electromagnet, and its position may be adjusted such as described above, or alternatively its electric current may be altered to effect an equivalent magnetic field change in the nest 1818 of the detacher 1800.
In another embodiment, the system may have less or more than three discrete magnet 1820 positions, and the positions may be customizable such that positions can be added or removed by a manager or other user, or automatically determined by the security system.
In various embodiments, a plurality of security devices, such as any combination of security devices 2, 102, 502, 902, 1702, and 2102, are each designated into one of a discrete number of “security levels” that correspond to a different magnet 1820 position. The security levels may correspond to the articles designated to be secured by the security devices, and may be each be based upon the article's value, type, popularity or likelihood of theft, difficulty in stealing (e.g., small, light articles may be relatively easy to hide), other criteria, or any combination thereof as desired.
Thus, for example, a plurality of circular optical disc security devices 102, such as described below, may each be provided a security level based upon the type of circular optical disc to be secured thereto. As another example, bottle security devices 1702 described below may be designated in various security levels based upon the prices or profit margins of the wines in the bottles they are to secure, and one or more of these security levels may be the same as one or more of those associated with the circular optical disc security devices 102.
The aforementioned capability of embodiments of the security system to restrict operation of the detacher 1800 may enable retailers to combat collusion at the point of sale. Collusion may be accomplished, for example, by a store associate scanning a first article and then removing a security device from a more expensive article, which may then be removed from the store. Thus, where a less expensive item is scanned, the security system may prompt the detacher 1800 to only raise the magnet assembly to a lower height, or greater distance from the nest 1818, commensurate with a lower security article. At such height, the magnetic field strength in the nest 1818 may be insufficient to unlock the security device associated with a higher security article. In an embodiment, after the detacher 1800 performs an authorized unlocking of a security device such as described herein, the magnet 1820 immediately moves to an “off” position such that it will not provide sufficient field strength within the nest 1818 to unlock any security device, such as 2, 102, 502, 902, 1702, or 2102. One or more infrared sensors or other proximity sensors 1850, or other types of sensors, may be positioned within or adjacent to the nest 1818 and may sense when a security device is inserted in and removed from the nest 1818. Once removed, the magnet 1820 may be prompted by the security system to be lowered by the motor 1830 to an “off” position, thus preventing quick removal of multiple security devices from multiple articles while the detacher is enabled. In addition or alternative to the sensors 1850, an EAS marker or detector may be positioned within or adjacent the nest 1818 to detect the presence of an EAS tag of a security device.
In another embodiment, where the electricity or other power to the detacher 1800, such as to the motor 1830, is cut off, the magnet 1820 automatically moves to its “off” position. For example, the magnet 1820 may be biased toward its off position by gravity, spring, reserve power such as a battery, or other means, such that if the motor 1830 is not at least operating to at least offset this bias, the magnet 1820 will move toward and to its “off” position. In another embodiment, the magnet 1820 automatically moves to its “off” position after power returns to the detacher 1820.
In one embodiment, the security device 2 may be configured for one-time use. For example, in one embodiment as shown in
For example, the cantilevered arm 4 may have an unloaded position as shown in
In another embodiment, only one of the cantilevered arms 4 and 5 is included. In various other embodiments, other resilient elements, such as coils or other springs, rubbers, and foams, for example, may be employed within the channel 3 or other portion of the housing to prevent the appended security device from being used twice.
In another embodiment such as shown in
The housing 130 shown in the embodiment of
For example,
Referring first to
The magnetically actuable latch 112 may comprise a magnetic material, and may comprise one or more materials such as described with respect to the magnetically actuable latch 12 of
The magnetically actuable latch 112 may be shaped like a “T”. Thus, the base portion side surfaces 113B and 113C may be parallel and each may be at least substantially straight, and the width of the base portion 113, which may be the distance between base portion side surfaces 113B and 113C, may be wider than the other widths of the magnetically actuable latch 112. The base portion end 113A may be flat and may be substantially perpendicular to the base portion side surfaces 113B and 113C. The magnetically actuable latch 112 may be configured with a slender thickness. However, the magnetically actuable latch 112 may be otherwise configured in various embodiments, such as described herein with respect to the magnetically actuable latch 12 shown in
The flexible element 116 may comprise or be formed of a flexible material, and may include a material or materials such as described herein with respect to the flexible element 16 shown in
The latch mating element 118 may be integral with the housing 130 or a portion thereof as described below, or may be a separate piece or pieces.
The housing 130 of the circular OD security device 102, shown at least in part in each of the embodiments of
The circular OD receptacle 156 may be integral with one or more of the bottom housing perimeter walls 150B through 150D and possibly the arcuate internal walls 154, or may be otherwise secured with the bottom housing 150.
Referring again to
For example, the upper portion 161 of the bottom housing 150 may include a channel end wall 165, channel walls 166 and 168, and a channel 164 that is delineated by the channel walls 166 and 168 and may be bounded by the channel end wall 165. The channel walls 166 and 168 may include portions substantially parallel to each other, and may be positioned close to or in contact with the magnetically actuable latch 112 at the base portion side surfaces 113B and 112C and at the sides of the central and latching portions 115 and 114, respectively, thereby restricting the movement of the magnetically actuable latch 112 to movement along the channel 164, which may be movement in a substantially linear direction. In various other embodiments, the magnetically actuable latch 112 may move in a rotational, combination rotational/linear direction, or any other direction or directions. In these various other embodiments, one or more of the channel 164, flexible element 116, and latch mating element 118 may be contoured, shaped, or otherwise configured to guide the magnetically actuable latch 112 in the direction or directions.
The flexible element 116 may be positioned adjacent the channel end wall 165 such that where the magnetically actuable latch 112 is forced away from the locking position and against the flexible element 116, the flexible element 116 may compress by the force of the magnetically actuable latch 112 and the resistant force of the channel end wall 165. The flexible element 116 may provide a resistant force to such compression, against such movement of the magnetically actuable latch 112.
As described above, in each of various embodiments the magnetically actuable latch 112 may be configured with another shape, in which case the channel 164, and thus the channel walls 166 and 168, may be configured to accommodate such a magnetically actuable latch 112 and possibly restrict the movement of the magnetically actuable latch 112 in one or more directions. In each of these embodiments, the flexible element 116 may be configured to fit within the channel 164.
In various other embodiments, the OD mating element 157 may comprise another structure, such as a solid, hollow, pronged, or other structure that may that mate with the central hole of a circular OD by interference fit, snap-fit, or other means. In another embodiment, the circular OD receptacle 156 does not include an OD mating element 157.
The basin wall 170 may be configured, such as circularly or otherwise configured, to delineate a basin 172 large enough such that a circular OD may fit within the basin 172 with or without contacting the basin wall 170.
The upper portion of the bottom housing 150 may also include groove walls 174-177 and arcuate grooves 174A-177A (177A is obscured and therefore cannot be seen in the
Referring again to
The latching portion 114 and possibly more of the magnetically actuable latch 112 may extend under the hood 118B and thus into the recess 118D when in the locking position. In one embodiment, the latching portion 114 and possibly more of the magnetically actuable latch 112 may extend across the recess 118D and to the end wall 118C.
The housing 130 may also include the locking mechanism cover 180 illustrated in the embodiment of
Referring again to the embodiments of FIGS. 5 and 13A-13B, the housing 130 may also include a security tag cover 190. The security tag cover 190 may be configured to fit over the security tag 120, and may be secured within the security tag receptacle 152 and/or to the security tag 120, such as via fusing, welding, gluing, taping, mechanical fit, or by other means.
Referring to
When the bottom cover 200 is secured to the bottom housing 150, the security tag 120 may be enclosed and thus secured therein so it may not be reached and removed.
The top cover 205 may further include guide walls 211-213. The guide walls 211-213 may extend from the top cover wall 209 and may be shaped to cooperate with the groove walls 174-177 and latch mating element 118, including the latch mating element wall 118A. For example, in one embodiment, the guide walls 211-213 may extend from the top cover wall 209 in an “L” shape having arcuate lips 211A-213A, respectively, that are substantially parallel to the top cover wall 209. Thus, when the top cover 205 is fitted over and around a circular OD to enclose the circular OD within the housing 130, as described above, the arcuate lips 211A-213A of the guide walls 211-213, respectively, may slide within the arcuate grooves 174A-177A and recess 118D of the bottom housing 150 when the top cover 205 is rotated.
The top cover 205 may be positioned over a circular OD and onto the bottom housing 150 such that the latch mating element 118 is positioned between the guide walls 212 and 213. In this position, the arcuate lips 212A and 213A of the guide walls 212 and 213, respectively, may be positioned at least partly within the arcuate grooves 174A and 175A of the bottom housing 150. Since the magnetically actuable latch 112 may be biased by the flexible element 116 into the locking position within the recess 118D of the latch mating element 118, the magnetically actuable latch may block the arcuate lips 212A and 213A from being slid through recess 118D. Such a configuration may allow only limited rotation of the top cover 205 such that within this limited rotation, at least one of the arcuate lips 211A-213A may be positioned at least partly within an arcuate groove 174A-177A, thus securing the top cover 205 to the bottom housing 150. In another embodiment, the arcuate lips 211A-213A may be configured such that within that limited rotation, at least two of the arcuate lips 211A-213A are each positioned at least partly within an arcuate groove 174A-177A, further securing the top cover 205 to the bottom housing 150.
In various other embodiments, the mechanism for securing the top cover 205 to the bottom housing 150 may be modified, for example in one or more of the following ways: the bottom housing 150 may include variously sized and/or less than all of the groove walls 174-177 and thus the arcuate grooves 174A-177A, or may include additional groove walls and arcuate grooves; the bottom housing top cover 205 may include variously sized and/or less than all three guide walls 211-213, and thus the arcuate lips 211A-213A; and/or the shapes of the groove walls, grooves, guide walls, and lips of the bottom housing 150 and top cover 205 may be modified. Thus, for example, the number and size of the groove walls, arcuate grooves, guide walls, and arcuate lips may be configured in the bottom housing 150 and top cover 205 such that the top cover 205 may be secured to the bottom housing 150 of the circular OD security device 102 when the magnetically actuable latch 112 is in the locking position, as described above.
In another embodiment, a circular optical OD security device system includes the circular optical OD security device 102 and a detacher, such as the detacher 40. Where the detacher 40 is placed near the magnetically actuable latch 112 of the security device 102 such that the flexible element 116 is positioned between the detacher 40 and magnetically actuable latch 112, the detacher 40 may magnetically force the magnetically actuable latch 112 out of the locking position and against the flexible element 116. If the magnetic force is greater than the compressive force of the flexible element 116 and any other forces resisting such movement of the magnetically actuable latch 112, the magnetically actuable latch 112 may move out of the locking position. In such case, the top cover 205 will no longer be blocked from full rotation, and the top cover 205 may be freely rotated. Thus, the top cover 205 may be rotated until no portion of any of its arcuate lips 211A-213A is positioned within an arcuate groove 174A-177A of the bottom housing 150, in which case the top cover 205 may be removed, exposing any circular OD that may be disposed within the basin 172 of the bottom housing 150. In other embodiments, the top cover 205 may be rotatably attached to the bottom housing 150 in a hinged or other suitable arrangement. In other embodiments, the top cover 205 may be otherwise securable or secured to the bottom housing 150, whether rotatably secured or attached. Because no part of the circular OD security device 102 in this embodiment may be broken during the process of unlocking it, the circular OD security device 102 may be reusable.
In one embodiment, the circular OD security device 102 may, or may be configured to, enclose or contain a CD, and may be called a CD security device 102. In this embodiment, the CD security device 102 may, or may be configured to, enclose or contain any other type of circular OD as well. The CD security device 102 may be capable of holding an EAS tag, magnetic mechanism, and any type of CD. This security device may, in one embodiment, carry an EAS component and may be utilized to provide resistance to or prevent the unauthorized from taking and then leaving a store with the CD security device, and any type of CD that may be enclosed or otherwise secured thereto. In one embodiment, this security device may include a bottom housing, EAS label, EAS label cover, bottom cover, latch mechanism cover, magnetically actuable latch mechanism, and top cover. In one embodiment, the circular OD security device 102 may comprise this security device such that the locking mechanism 110 may include the magnetically actuable latch mechanism, the security tag 120 may include the EAS label or tag, and the housing 130 may include portions comprising the bottom housing, EAS label cover, bottom cover, latch mechanism cover, and top cover, which portions may correspond to the bottom housing 150, security tag cover 190, bottom cover 200, locking mechanism cover 180, and top cover 205, respectively.
While certain features of the embodiments have been illustrated as described herein, many modifications, substitutions, changes and equivalents will now occur to those skilled in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the scope of the embodiments.
This application claims priority to the U.S. Provisional Patent Application Ser. No. 60/683,657 titled “Improved EAS Security Tags” filed May 23, 2005, which is incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2006/020293 | 5/23/2006 | WO | 00 | 2/2/2009 |
Publishing Document | Publishing Date | Country | Kind |
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WO2006/127925 | 11/30/2006 | WO | A |
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20090229327 A1 | Sep 2009 | US |
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60683657 | May 2005 | US |