Example embodiments generally relate to security technology, and more particularly, relate to a security device for use in retail loss prevention.
Product security devices are commonly used in a number of settings, including in retail loss prevention. In this regard, retail theft prevention systems, often referred to as electronic article surveillance (EAS) systems, use antennas located at the exits of a retail establishment to detect RF signals emitted by a security device that is affixed to items for sale. A product security device may be affixed or locked to a product, and if the device is not removed at a point-of-sale during a sales transaction, the security device will be detected by the EAS system as the device, which is affixed to an item, leaves the store. An alarm may be triggered because the removal of the device from the retail establishment is likely to be associated with an attempted theft.
According to some example embodiments, a security device is provided. The security device may comprise a core comprising an internal jaw and a guide surface. A distance between the internal jaw and the guide surface may vary across a length of the core. The security device may further comprise a shuttle comprising an opening that forms an external jaw. The core may be movably disposed within the opening of the shuttle such that the guide surface engages with the shuttle. A jaw gap may be defined between the internal jaw and the external jaw. The guide surface may be positioned to guide movement of the shuttle such that as the shuttle moves relative to the core in a sliding direction that includes a horizontal component. The variation in the distance between internal jaw and the guide surface may cause the jaw gap to change in a vertical direction. The jaw gap may be configured to receive a portion of an item to protect.
Another example embodiment is a system comprising a detacher key and a security device. The detacher key may comprise a magnet. The security device may comprise a core comprising an internal jaw and a guide surface. A distance between the internal jaw and the guide surface may vary across a length of the core. The security device may further comprise a shuttle comprising an opening that forms an external jaw. The core may be movably disposed within the opening of the shuttle such that the guide surface engages with the shuttle. A jaw gap may be defined between the internal jaw and the external jaw. The guide surface may be positioned to guide movement of the shuttle such that as the shuttle moves relative to the core in a sliding direction having a horizontal component. The variation in the distance between internal jaw and the guide surface may cause the jaw gap to change in a vertical direction. The jaw gap may be configured to receive a portion of an item to protect. The core may further comprise ratcheting teeth and the shuttle may further comprise a spring biased member configured to engage the ratcheting teeth. The spring biased member may be configured to be compressed and moved out of engagement with the ratcheting teeth in response to a magnetic field thereby allowing the shuttle to slide freely in a forward sliding direction and a rearward sliding direction. The magnet of the detacher key may provide the magnetic field.
Having thus described the adjustable clamp security device in general terms, reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
Some example embodiments now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all example embodiments are shown. Indeed, the examples described and pictured herein should not be construed as being limiting as to the scope, applicability or configuration of the present disclosure. Rather, these example embodiments are provided so that this disclosure will satisfy applicable legal requirements. Like reference numerals refer to like elements throughout. As used herein, operable coupling should be understood to relate to direct or indirect connection that, in either case, enables functional interconnection of components that are operably coupled to each other.
According to various example embodiments, an example adjustable clamp security device is provided that securely attaches to an item via an adjustable clamp and protects an item, such as a retail product, from being stolen. In this regard, the example security device may include a wireless signal transmitting device that can be detected by an antenna at, for example, an exit of a retail establishment to indicate that the item to which the security device is attached is being stolen. The security device may be removable (and reusable) through the use of a prescribed key (e.g., a magnetic key) at a point of sale in a retail establishment during a transaction to purchase the item.
According to some example embodiments, the security device may include an adjustable and lockable clamp that receives a portion of the item in a jaw gap to secure the security device to the item. A user (e.g., retail store personnel) may then operate the example security device in a manner that closes the opposing jaws forming the jaw gap onto the portion of the item and lock the jaws in place on the item such that the security device is secured to the portion of the item. Compression pads affixed to each of the jaws may be included to facilitate secure attachment of the security device to an item. Further, the jaws may be closed in response to a ratcheting action that permits the jaw gap to be further reduced to tighten the jaws onto the item, but prevents the jaw gap from being increased to loosen the security device's hold on the item.
According to some example embodiments, an example security device is provided that comprises a core and a shuttle. The core may have an internal jaw and a guide surface. The core may, according to some example embodiments, be in the shape of a wedge. In this regard, for example, a distance between the internal jaw and the guide surface may vary (e.g., reduce or increase linearly) across a length of the core. The shuttle may include an opening that forms an external jaw and the core may be movably disposed within the opening of the shuttle such that the guide surface of the core engages with the shuttle to permit the shuttle to slide along the guide surface. A jaw gap may be defined between the internal jaw and the external jaw. In this regard, the guide surface may be positioned to guide movement of the shuttle such that as the shuttle moves relative to the core in a sliding direction having a horizontal component, the variation in the distance between internal jaw and the guide surface may cause the jaw gap to change in a vertical direction (e.g., expand or contract) to receive a portion of an item to protect.
In view of the foregoing,
For reference, horizontal directions, sliding directions, and vertical directions are defined for convenience of explanation. The security device 100 may be comprised of a core 200 and a shuttle 300. The core 200 may have a forward portion 295 and a rearward portion 296. The core 200 may also have an upper side 297 and a lower side 298. Note that these relative locational descriptors are merely used for explanation purposes are not intended to state an orientation of operation for the example security device 100. The security device 100 may be utilized in any orientation. In this regard, the horizontal directions may be defined as a forward horizontal direction 400 toward the forward portion 295 of the core 200 and a rearward horizontal direction 401 toward the rearward portion 296 of the core 200. The vertical directions may be defined as an upward direction 450 toward an external jaw 310 of the shuttle 300 and a downward direction 451 toward a lower side 298 of the core 200. The sliding direction 425 may have both horizontal and vertical components as defined by the horizontal directions and the vertical directions. The sliding direction may describe the line upon which the shuttle 300 moves relative to the core 200. The sliding direction may be defined as a forward sliding direction 425 toward the forward portion 295 of the core 200 and a rearward sliding direction 426 toward the rearward portion 296 of the core 200. Based on these defined directions, the core 200 may, according to some example embodiments, be a central component that is disposed within an opening 350 of the shuttle 300 and upon which the shuttle 300 slides in the forward sliding direction 425 or the rearward sliding direction 426 to change a vertical size of the jaw gap 110 through relative vertical movement of the external jaw 310 with respect to the internal jaw 230 in the upward direction 450 or the downward direction 451, while the internal jaw moves in a forward horizontal direction 400 or a rearward horizontal direction 401 with the shuttle 300.
The core 200 may include a guide surface 270 upon which the shuttle 300 interfaces to facilitate relative sliding of the shuttle 300 in the sliding directions 425, 426. As seen in
According to some example embodiments, an internal jaw that may be used to define the jaw gap 110 may simply be the upper surface 297 of the core 200. However, to facilitate improved engagement with an item, an internal jaw sliding member 230 may alternatively be used, which may include the internal jaw 290. The internal jaw sliding member 230 may be a component of the core 200. However, the internal jaw sliding member 230 may slide relative to the core 200 in the horizontal directions 400, 401 as the shuttle 300 slides in the sliding directions 425, 426, respectively. The internal jaw sliding member 230 may slide in the horizontal directions 400, 401 along the internal jaw guide surface 260, which may be a lip that is engaged by the internal jaw sliding member 230 via the recessed areas 250 formed by arms 251. The internal jaw sliding member 230 may be constrained within a cavity 370 of the shuttle 300 such that the internal jaw sliding member 230 moves with the shuttle 300 in the horizontal directions 400, 401, but moves relative to the shuttle 300 in the vertical directions 450, 451. In this regard, the internal jaw sliding member 230 may include arms 251 that contact shoulders 323 of the shuttle 300 when the shuttle 300 is sliding to maintain constrained horizontal movement of the internal jaw sliding member 230 with the shuttle 300. However, due to the angular relationship between the guide surface 270 and the internal jaw guide surface 260, as the shuttle 300 moves in sliding directions 425, 426, the internal jaw sliding member 230 may slide vertically against the shoulders 323 to move the internal jaw sliding member 230 in the vertical directions 450, 451, respectively, thereby closing or opening the jaw gap 110.
In this regard, as shown in
Having described the movement of the components of the security device 100, a ratcheting assembly may now be described with reference to
In this regard, referring to
With reference to
To apply the security device 100 to an item (i.e., in the absence of the detacher key 500), the security device 100 may initially be configured with the shuttle 300 in a forward position to permit insertion of an item into the jaw gap 110, since the jaw gap 110 will be relatively large with the shuttle 300 in a forward position. With the item inserted into the jaw gap 110, the shuttle 300 may be slid in the rearward sliding direction 426 to thereby reduce the size of the jaw gap 110 and clamp onto the item.
As mentioned above, the exterior jaw surface 390 and the internal jaw 290 may have compression pads 340, 240 affixed their respective engaging surfaces. The compression pads 240, 340 may operate to both provide additional grip onto the item via a higher coefficient of friction and increase the surface area of contact by permitting the item to depress into the compression pads 240, 340. Also, because the compression pads 240, 340 may have a soft surface, the compression pads 240, 340 may also protect the item from being scratched or from other damage that may occur due to clamping the security device 100 onto the item.
As the shuttle 300 moves in the rearward sliding direction 426, the jaw gap 110 closes, but also the spring biased member 330 repeatedly engages a next ratchet tooth 210. In doing so, the spring biased member 330 and the ratchet teeth 210 operate to lock the jaw gap 110 into an increasing smaller size thereby ultimately locking the security device 100 onto the item when a sufficient amount of force is applied to the shuttle 300 to move the shuttle 300 in the rearward sliding direction 426. As such, the adjustability of the security device 100 for use with different items may be realized.
The example security device 100 may also incorporate wireless communications technology for loss prevention and inventory tracking purposes. According to some example embodiments, the core 200 may include an interior cavity that houses a security element 221 that is configured to transmit wireless signals. The security element 221 may be a radio frequency resonator, an acousto-magnetic resonator, or an RFID tag. In this regard, as a radio frequency resonator or acousto-magnetic device, the security element 221 may resonate in the presence of a electromagnetic field of a certain frequency and return a resonance signal that may be detected. In response to detecting the return resonance signal from the security element 221, a remote alarm may be triggered to indicate that, for example, an individual is attempting to exit a retail establishment without having first had the security device 100 removed from an item for sale, which may be indicative of an attempted theft of the item.
Additionally or alternatively, the security element 221 may include an RFID tag. In this regard, the RFID tag may be configured to respond to an interrogation signal with a unique code indicative of the RFID tag. As such, the RFID tag may facilitate not only theft deterrence functions, but also inventory counting or tracking of the location of the security device 100 within and environment that is appropriately equipped with tracking hardware.
Having described the structure and operation of the security device 100 in an assembled configuration, reference is now directed to
With respect to shuttle 300, the internal features can be more clearly viewed in
The internal jaw sliding member 230 is also shown in isolation. According to some example embodiments, the internal jaw sliding member 230 may be a separate component of the core 200. The internal jaw sliding member 230 may include the internal jaw 290 and the affixed compression pad 240. Further, internal jaw sliding member 230 may include recesses 250 for engagement with the internal jaw guide surface 260 of the core 200, and formed by arms 251 which may abut shoulders 323 of the shuttle 300 as described above.
Many modifications and other embodiments set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that embodiments are not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Moreover, although the foregoing descriptions and the associated drawings describe exemplary embodiments in the context of certain exemplary combinations of elements and/or functions, it should be appreciated that different combinations of elements and/or functions may be provided by alternative embodiments without departing from the scope of the appended claims. In this regard, for example, different combinations of elements and/or functions than those explicitly described above are also contemplated as may be set forth in some of the appended claims. In cases where advantages, benefits or solutions to problems are described herein, it should be appreciated that such advantages, benefits and/or solutions may be applicable to some example embodiments, but not necessarily all example embodiments. Thus, any advantages, benefits or solutions described herein should not be thought of as being critical, required or essential to all embodiments or to that which is claimed herein. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
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