1. Field of the Invention
The present invention relates to security devices used to protect merchandise or other objects and, more particularly, to security devices having one or more adjustable cables used to wrap around the objects such that the security devices are secured to the objects.
2. Description of Related Art
Electronic article surveillance (EAS) systems are often used to deter and detect shoplifting. Typically, an EAS security system includes an EAS tag, a transmitter, a receiver, and an alarm. The EAS tag is attached to a piece of merchandise. The transmitter and the receiver are positioned at the exit of a retail establishment and configured to establish a detection zone in which a consumer must pass through as he or she exits the retail establishment. The transmitter is configured to send signals through the detection zone. When an EAS tag enters the detection zone, the EAS tag responds and creates a signal or a change or disturbance in the original signal transmitted by the transmitter, which is detectable by the receiver. Upon detection of the EAS tag, the alarm is triggered in order to notify the store personnel that someone is trying to exit the retail establishment with merchandise that has an attached and active EAS tag.
In an EAS system, it is the actual EAS tag that is being detected and not the merchandise itself. Therefore, an EAS system can be circumvented by removing the EAS tag from the merchandise. To prevent the unauthorized removal of the EAS tag, security devices have been developed. A typical security device is configured to house the EAS tag and attach the EAS tag to the merchandise in a manner that limits the likelihood that a consumer or a would-be thief could tamper with or otherwise remove the EAS tag from the merchandise.
As an example, one particular type of security device is a cable wrap security device such as the one disclosed in U.S. Pat. No. 7,497,101, which is hereby incorporated by reference in its entirety. Typically, a cable wrap security device includes a first housing for a ratchet mechanism, a second housing for an EAS tag, and a cable that is routed through both the first and second housing and configured to wrap around the package of the merchandise. The ratchet mechanism is configured to tighten the cable around the package such that the security device is not removable from the package without being loosened. The security device further includes a locking mechanism that prevents loosening or release of the cable without a specifically configured key or other specialized equipment that is controlled by the employees of the retail establishment. In some applications, the cable of the cable wrap security device also prevents a consumer or would-be thief from opening or otherwise tampering with the package to get to the merchandise within the package.
Embodiments of the present invention provide a security device. The security device is configured to secure to merchandise or other objects and to prevent the unauthorized removal or tampering of the security device. Moreover, the security device according to embodiments of the present invention may also provide one or more additional features or functionalities that a retail operator may prefer or consider prior to the use or selection of a particular security device over others.
For example, according to an embodiment, a security device structured for attachment to an object is provided. The security device includes a housing, a spool, a locking mechanism, a button, a plug, and a latch. The spool is rotatably supported within the housing such that the spool is rotatable in both a first direction and a second direction. The locking mechanism is movable between a locked position and an unlocked position. In the locked position, the locking mechanism is positioned to prevent the spool from rotating in the first direction while not preventing the spool from rotating in the second direction. In the unlocked position, the locking mechanism is positioned to not prevent the spool from rotating in the first direction or in the second direction. The button is accessible from outside of the housing when the security device is unattached to the object and configured to move the locking mechanism between the locked position and the unlocked position. The plug is movable between an inserted position and a removed position. In the inserted position, at least a portion of the plug is positioned to prevent the button from moving the locking mechanism out of the locked position. In the removed position, the plug is positioned to not prevent the button from moving the locking mechanism out of the locked position. The latch is movable between an engaged position and a disengaged position. In the engaged position, at least a portion of the latch is positioned to prevent the plug from moving toward the removed position. In the disengaged position, the latch is positioned to not prevent the plug from moving toward the removed position.
The latch, in the engaged position, and the plug, in the inserted position, may be configured to require a first force and a second force to move the latch from the engaged position toward the disengaged position.
The security device may further include a cable that is configured to form at least one cable loop extending from the housing and to at least the plug. A first end of the cable may be connected to the spool and a second end of the cable may be secured, e.g., to a non-rotatable portion of the housing or other component of the security device, such that a rotation of the spool in the first direction lengthens the cable loop and a rotation of the spool in the second direction shortens the cable loop.
The button may be positioned to be inaccessible once the security device is attached to the object.
Each of the spool, the locking mechanism, and the button may share is spatially centered about a common axis. The locking mechanism may be moveable along the common axis. In the inserted position, the plug may be generally perpendicular to the common axis. The latch may be moveable along an axis parallel to the common axis.
The security device may further include at least one of an EAS tag and audio alarm. The security device may further include a second housing. The first housing may contain the audio alarm and the second housing may contain the EAS tag.
According to another embodiment, the security device includes a housing, a spool, a handle, a locking mechanism, a button, and a plug. The spool is rotatably supported within the housing such that the spool is rotatable in both a first direction and a second direction about a first axis. The handle is configured to rotate the spool. The locking mechanism is movable along the first axis between a locked position and an unlocked position. In the locked position, the locking mechanism is positioned to prevent the spool from rotating in the first direction while not preventing the spool from rotating in the second direction. In the unlocked position, the locking mechanism is positioned to not prevent the spool from rotating in the first direction or in the second direction. The button is accessible from outside of the housing when the security device is unattached from the object, movable along the first axis, and configured to move the locking mechanism between the locked position to the unlocked position. The plug is movable between an inserted position and a removed position. In the inserted position, at least a portion of the plug is positioned to prevent the button from moving the locking mechanism out of the locked position. In the removed position, the plug is positioned to not prevent the button from moving the locking mechanism out of the locked position.
The security device may further include a cable and a latch. The cable is configured to form at least one cable loop extending from the housing and to at least the plug. A first end of the cable is connected to the spool and a second end of the cable is secured such that a rotation of the spool in the first direction lengthens the cable loop and a rotation of the spool in the second direction shortens the cable loop. The latch is movable between an engaged position and a disengaged position. In the engaged position, at least a portion of the latch is positioned to prevent the plug from moving toward the removed position. In the disengaged position, the latch is positioned to not prevent the plug from moving toward the removed position.
The latch, in the engaged position, and the plug, in the inserted position, may be configured to require a first force and a second force to move the latch from the engaged position toward the disengaged position. In the inserted position, the plug may be generally perpendicular to the first axis.
In another embodiment, the security device may include a housing, a spool, a locking mechanism, a button, and a plug. The spool is rotatably supported within the housing such that the spool is rotatable about a first axis in both a first direction and a second direction. The locking mechanism is movable between a locked position and an unlocked position. In the locked position, the locking mechanism is positioned to prevent the spool from rotating in the first direction while not preventing the spool from rotating in the second direction. In the unlocked position, the locking mechanism is positioned to not prevent the spool from rotating in the first direction or in the second direction. The button is accessible from outside of the housing when the security device is unattached to the object, movable and configured to move the locking mechanism between the locked position and the unlocked position. The plug is movable between an inserted position and a removed position. In the inserted position, the plug extends generally perpendicular to the first axis and between the button and the locking mechanism such that the button is prevented from moving the locking mechanism out of the locked position. In the removed position, the plug is positioned to not prevent movement of the button.
Each of the locking mechanism and the button may be moveable along the first axis.
The security device may further include a latch movable between an engaged position and a disengaged position. In the engaged position, at least a portion of the latch is positioned to prevent the plug from moving toward the removed position. In the disengaged position, the latch is positioned to not prevent the plug from moving toward the removed position. The latch, in the engaged position, and the plug, in the inserted position, may be configured to require a first force and a second force to move the latch from the engaged position toward the disengaged position
The security device may further include a handle and a cable. The handle may be configured to rotate the spool. The cable may be configured to form at least one cable loop extending from the housing and to at least the plug. For example, a first end of the cable may be connected to the spool and a second end of the cable may be secured such that a rotation of the spool in the first direction lengthens the cable loop and a rotation of the spool in the second direction shortens the cable loop.
The security device may further an EAS tag and a second housing that contains the EAS tag. The security device may also include an audible alarm.
Reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
a is a perspective view of a security device according to an exemplary embodiment of the present invention;
b is the security device of
a is a front view of the security device of
b is the same front view of
c is a back view of
a is an exploded view of a first housing of the security device of
b is an exploded view of a second housing of the security device of
a is a cross-section view of the first housing taken along line 4-4 of
b is the cross-section view of
c is the cross-section view of
a is a bottom plan view of a top of the security device of
b is a top plan view of a spool of the security device of
c is a perspective view of a locking mechanism of the security device of
d is a perspective view of a portion of the first housing of the security device of
a is a perspective view of a specifically configured key consistent with an exemplary embodiment of the present invention;
b is the view of
c is an exploded view of
The present invention or inventions now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the inventions are shown. Indeed, these inventions may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will satisfy applicable legal requirements. Like numbers refer to like elements throughout. The terms top, bottom, side, up, down, upwards, downwards, vertical, horizontal, and the like as used below do not imply a required limitation in all embodiments of the present invention but rather are used herein to help describe relative direction or orientation in the exemplary embodiment illustrated in the figures.
Embodiments of the present invention provide a security device. The security device may be configured to secure to merchandise or other objects and to prevent the unauthorized removal or tampering of the security device. The security device may further include one or more alarm features. Moreover, the security device according to embodiments of the present invention may also provide other features or functionalities that a retail operator may prefer or consider prior to the use or selection of a particular security device over others. For example, while the security device is configured to prevent unauthorized removal, the ease at which an authorized operator, such as an employee, can remove the security device may be factor. Similar, the ease at which the security device can be secured to the merchandise may be another factor. Yet another factor may be the overall size or shape of the cable wrap security device. Large housings may detract from the aesthetic appeal of a particular package or the merchandise or may hide important information from a potential consumer. Also, any additional or new features of the cable wrap security device that improve or enhance the ability of the device to prevent unauthorized removal may be considered a benefit by a retail operator.
As explained in detail below, embodiments of the present invention provide a security device that may address one or more of the above features and functionality. For example, a security device may include a spool, locking mechanism, button, plug, and latch. The spool may be configured to either wind or unwind a cable for wrapping around an object. The locking mechanism may be configured to partially lock the spool. The button may be used to move the locking mechanism between locked and unlocked positions. The button may be blocked by inserting the plug into a housing of the device such that the button can not be activated to unlock the spool. The plug may be secured to the housing through the latch that prevents the unauthorized removal of the plug. For an enhanced locking feature, the latch and the plug may be configured to require at least two forces to move the latch and free the plug. The spool, locking mechanism, and button may be stacked along a common axis to provide a more compacted design.
In particular and according to the illustrated embodiment of
As explained in more detail below, the plug 140 is movable between an inserted position, e.g., as shown in
In general, according to the illustrated embodiment, the first housing 110 contains a rotatable spool configured to loosen and tighten the cable 130 and the second housing 120 contains an EAS tag. However, the illustrated embodiment is an exemplary embodiment and not the exclusive embodiment. In other embodiments, rather than having two cable loops, the security device may include only a single cable loop. For example, the cable may extend from a first end secured to the spool within the housing out of the housing to a second end secured to the plug. In embodiments having a second housing, the cable may extend through the second housing. In other embodiments, the security device may only have a single housing. In such an embodiment, the EAS tag may be contained in the same housing as the spool. In other embodiments, the security device may not include an EAS tag.
Now, referring back to the illustrated embodiment and as best shown in
The second housing 120 may define a plurality of holes 330, 332, 334, 336 configured to allow the cable to extend through the second housing, e.g., as shown in
Referring now to the first housing and the operation of the rotatable spool, embodiments of the security device may include the first housing 110, a spool 410, a locking mechanism 420, a button 430, the plug 140, and the cable 130. In general, according to the illustrated embodiment, the spool 410 is configured to unwind or wind the cable 130. The locking mechanism 420 is configured to selectively lock the spool 410 such that spool 410 is limited to winding the cable 130 and is prevented from further unwinding the cable 130. The button 430 is configured to unlock the spool 410 through the disengagement of the locking mechanism 420. And the plug 140 is configured to block out the button 430 such that the button 430 is prevented from unlocking the spool 410.
For example, as shown in
More specifically, according to the illustrated embodiment, the spool 410 has a cylindrical side wall 411 and two cylindrical flanges 412, 413 extending outwardly from the top and bottom of the side wall 411. The side wall 411 and flanges 412, 413 form a cylindrical channel in which a portion of the cable may be stored or held. The security device may further include a support post 440 configured to at least partially support the spool. For example, the support post 440 may be a cylindrical body 441 defining a groove 442 extending around its circumference. The spool 410 may define a central opening 414 to receive the cylindrical body 441 and may further include an inner rim 415 configured to engage the groove 442 of the support post. The spool 410 may also include an inner cylindrical wall 416 configured to extend around the cylindrical body 441.
During operation, according to the illustrated embodiment, the spool 410 may rotate about the cylindrical body 441 while the groove 442 and the inner rim 415 inhibit the movement of the spool 410 relative to the support post 440 along the first axis and in a direction perpendicular to the first axis. The spool may be further supported within the first housing by one or more surfaces of the first housing as long as such surfaces do not prevent the rotation of the spool within the first housing. As explained in more detail below, the spool 410 may further define one or more openings or channels 417, e.g., as best shown in
The locking mechanism 420 may be movable between a locked position (e.g., as illustrated in
The locking mechanism 420 of the illustrated embodiment is generally below the spool 410. Moreover, in the illustrated embodiment, both the spool 410 and the locking mechanism 420 are centered about the first axis. As best shown in
The locking mechanism 420 may further include downward facing locking teeth 424 extending along a bottom surface of the locking mechanism, e.g., as shown in
The security device 100 may be configured to bias the locking mechanism 420 toward the locked position. For example and as shown in
The button 430, according to the illustrated embodiment, is configured to move the locking mechanism 420 between the locked and unlocked positions. The button 430 may be positioned or configured to be at least partially accessible from the outside of the first housing 110 such that the button 430 can be activated, e.g., pushed, by a user. For example and as shown in
The button 30 further includes a top portion 432 positioned below or adjacent to the locking mechanism 420. For example, the top portion 432 may be directly below or adjacent a downward facing surface of the locking mechanism 420. As a user activates, e.g., pushes, the button 430, the button 430 is moved further into the first housing 110, e.g., along the first axis of the security device and as illustrated by the arrows in
As explained above, the plug 140 may be insertable at least partially into the first housing, e.g., through an opening 402 defined by the first housing. Moreover, in the inserted position, the plug 140 may be positioned or configured to prevent the movement of the button 430 such that the locking mechanism 420 is prevented from moving out of the locked position. In other words, as long as the plug 140 is in the inserted position, the locking mechanism 420 is prevented from moving out of the locked position via the button 430 and, thus, the cable or the cable loops can not be lengthened.
The plug 140 may extend from an inner end 461 to an outer end 462. The distance between the inner end 461 and the outer end 462 defines a length of the plug. The length of the plug may be configured to allow the plug to extend far enough into the interior of the first housing such that the inner end is at least to or beyond the button such that the at least a portion of the plug extends above at least a portion of the button. For example, in the illustrated embodiment, the button is spatially centered about the first axis of the security device and the plug may be configured to extend at least partially across the first axis in a generally perpendicular manner. The button 430 may also define a channel 433 that may be configured to receive the inner end 461 of the plug as the plug is moved inwardly to the inserted position. With the at least portion of the plug 140 above at least a portion of the button 430, the button 430 is prevented from moving upwardly further into the first housing 110.
The outer end 462 of the plug may be generally shaped to correspond with an outer wall of the first housing. For example, in the illustrated embodiment, the first housing 110 includes a generally cylindrical outer wall. The outer end 462 may define a cylindrical outer surface 409 that corresponds to the outer wall of the first housing. The length of the plug 140 may be configured such that in the inserted portion of the outer surface 409 of the outer end of the plug is or is substantially flush with the outer wall of the first housing, e.g., as shown in
The security device may further include a latch 470 movable between an engaged position and a disengaged position, e.g., as shown in
Due to the interactions between the spool 410, the locking mechanism 420, the button 420, the plug 140, and now the latch 470, one in the art would appreciate that by preventing the plug 140 from moving out of the inserted position through the positioning of the latch 470, the spool 410 is rotatable in only one direction. The one direction may be configured to be the winding direction of the cable, i.e., the direction that tightens the cable loops. Therefore, with the plug 140 inserted and the latch 470 in the engaged position, the security device is configured to allow the cable loops to be further tighten around the object while preventing the cable loops from loosening and reducing the likelihood that a consumer or a would-be thief could remove the security device from the object.
As a more specific example and according to the illustrated embodiment, the first housing define a vertical channel 401 configured to receive the latch 470 and a biasing device 480, such as a coil spring. The latch may be an elongated body extending from a top end 471 to a bottom end 472 made from a magnetic material, e.g., iron, nickel, or nickel-plated steel. The latch 470 may be shaped and positioned such that the latch may move up and down at least partially in the channel 401. The biasing device 480 may be positioned within the channel 401 between the top end 471 of the latch and a horizontal surface 405 of the first housing. As the latch 470 is moved toward the disengaged position, e.g., according to the illustrated embodiment, the latch is moved upwardly in the channel, the biasing device 480 is compressed causing the biasing device 480 to exert a force onto the top end 471 of the latch encouraging the latch 470 downwardly toward the engaged position. With the plug 140 in the inserted position, the latch 470, the biasing device 480, and the channel 401 may be inaccessible from outside the first housing such that a consumer or would-be thief can not insert a finger or tool to try to push, pull, or otherwise tamper with the latch 470 in order to try to get the latch 470 to move out of the engaged position.
Due to the magnetic properties of the latch, the latch 470 may be moved by a magnetic force. However, the latch 470 may be positioned within the first housing 110 and otherwise be configured to only be moveable by a magnetic force when that magnetic force has a certain strength or particular orientation relative to the latch. For example, in the illustrated embodiment, the latch 470 is moveable to the disengaged position by a specifically configured key being selectively placed next to the housing.
As an example, and as illustrated in
The security device may be further configured to include an impact resistant feature. In the event that the object and the security device were dropped in a particular way, the impact force may ordinarily move the latch 470 from the engaged position to the disengaged position at least temporarily which may lead to the unauthorized removal of the plug 140. The security device may be configured to require two forces to move the latch 470 from the engaged position to the disengaged position. The first force may be the use of the specifically configured key as discussed above. The second force may be applied by the user. The requirement of the second force may allow the security device to be more resistant to impact. Therefore, even if an impact serves as or otherwise eliminates the need of the first force, the requirement of the second force is likely to keep the plug inserted into the first housing.
For example and illustrated in
The plug 140 may further include an extension, such as a lip 467, extending into the channel 466 and the latch 470 may include an opening 473 configured to receive or engage the lip 467. For example and as illustrated, the plug 140 may include a plastic molded piece 468 and an insert 469 that may be molded within or otherwise attached to the plastic molded piece. The insert may be configured to form the lip. According to the illustrated embodiment, as the bottom end 473 of the latch drops into the channel 464 during the plug insertion, at least a portion of the bottom end 472 of the latch drops below the lip 467. The plug 160 may be retracted (i.e., moved outwardly) slightly such that the lip 467 extends at least partially into the opening 473 of the latch. With the lip 467 extending over a portion of the latch 470, the latch 470 is prevented from moving upwardly even in response to the specifically configured key or an impact.
Retracting the plug 160 slightly such that the lip 467 extends at least partially into the opening 473 of the latch may occur during the normal loading operation of the security device. For example, the plug 160 may be inserted into the housing by a user, e.g., an employee of the retail establishment. The user may insert the plug as far as possible, e.g., until the inner end 461 abuts against an inner portion of the first housing. In this position, the latch is aligned with channel of the plug such that the latch moves at least partially into the channel. However, the lip 467 may not yet extend at least partially into the opening 470. Next, the user may tighten the cable around the object. As explained above, the cable may extend through the plug. Therefore, as the cable is tightened around the object, the cable pulls on the plug. The pulling force exerted on the plug by the tightening of the cable causes the plug to slightly retract which in turn causes the lip 467 to move at least partially into the opening 473.
As another example, instead of or addition to relying on the cable to retract the plug, a biasing device may be used. The biasing device may be configured to bias the plug to retract slightly once inserted into the first housing and with the portion of the bottom end of the latch in the channel of the plug.
To release the plug 160 of the illustrated embodiment, the user places the key 600 against the top side of the first housing 110 and pushes the plug 160 slightly inward such that the lip 467 is no longer in or otherwise engaging the opening 473 of the latch. With the lip 467 removed, the latch 470 is movable toward the disengaged position by the magnetic force provided by the key. Therefore, in the illustrated embodiment, the key provides the first force while the push from the user provides the second force.
The security device may further include a handle 150 configured to allow the user to rotate the spool 410. For example, according to the illustrated embodiment, the security device includes a top 160 and a handle 150. The first housing may include a top rim 112 that extends around and at least partially above the top 160 such that the top 160 is connected to the first housing. More specifically, in the illustrated embodiment, the top 160 is prevented from moving along or lateral to the first axis of the security device relative to the first housing 110 but is rotatable relative to the first housing 110. The top rim 112 may be connected permanently to the rest of first housing such that, once assembled, it would be difficult for a consumer or would-be thief to disassembly the security device.
The top 160 may be positioned or configured to cover the spool 410. Moreover, the top 160 may be rotatably connected to the spool. For example, the spool may include one or more openings 495, e.g., as shown in
The security device may further include a winder mechanism. In particular and as further described in U.S. patent application Ser. No. 12/027,297, which has been incorporated by reference and to which the present application claims priority, the security device may include a winder mechanism that biases the spool to a first position. The first position may correspond to a position in which the cable is completely wound around the spool or that the cable loops have a minimum length. The winder mechanism may include a torsion spring extending from a first end to a second end. The torsion spring may be positioned within the center opening of the spool with the first end attached to the spool and the second end attached to a non-rotating element, such as the first housing. In the first position of the spool, the torsion spring may be at rest or in a rest state. As the spool is rotated to unwind the cable, the spring is twisted. The more the spool is rotated the further the spring is twisted. The torsion spring is configured to return to its rest state. Due to the connection between the torsion spring and the spool; the torsion spring is also configured to return the spool to the first position. Therefore, without a counter force, the torsion spring is configured to move the spool back to the first position and, thus, wind the cable back up.
As indicated above, the security device may include an EAS tag 340 that is configured to be detectable when the EAS tag is present in a predetermined detection zone, e.g., set up at or near the door or other entrance point of the retail establishment. EAS tag may be configured to work within an EAS security system. For example, the EAS tag may a magnetic tag such as in an electromagnetic (EM) system or in an acousto-magnetic (AM) system or an electronic circuit and antenna as in a radio frequency (RF) system. As another example, the EAS tag may be configured work within a microwave system.
In addition to or instead of the EAS tag, the security device may include other wireless devices. For example, the security device may include an active or passive RFID tag. The RFID tag may be used to store and/or communicate information about the object for security or inventory control purposes.
The security device may also be configured with other security or alarm features. For example, the security device may have an audio alarm, such as a piezo-electric siren, that may be triggered in response to one or more circumstances. In the illustrated embodiment, the alarm may include a printed circuit board 497, a light-emitting diode (LED) 498, and a battery 499. The battery 499 may stored and positioned within a top cavity defined by the spool 410. The printed circuit board 497 may be positioned above the battery. The LED may in electrical communication with the printed circuit board 497 and the battery 499 and may extend at least partially through in an opening defined by the top 491 of the security device such that at least a portion of the LED is visible outside the first housing 110. The LED may be used as an indicator (e.g., by providing a constant light or a blinking on/off light) of the existence of a particular condition or circumstance, e.g., security device has power, the locked mechanism is the locked position, the plug is in the inserted position, the latch is in the first position, the alarm is armed, or that the alarm has been triggered.
As explained in more detail in U.S. Pat. No. 7,497,101, which has been incorporated by reference, the alarm of the security device may be configured to activate in the event that a portion of the cable has been compromised, such as being cut or damaged. For example, the cable may be electrically conductive and form a sense loop in contact with a trigger of the security device. In event that the cable is compromised, the trigger is configured to detect the change in the cable and respond by activating the alarm.
As another example, the trigger may be configured to excite and, thus, activate the alarm depending on the location of the EAS tag to the gates of the security system. In one embodiment, the trigger may be configured to activate the alarm once the EAS tag is near, at, or beyond the gate which should help the employees to detect the merchandise with the attached security device. Therefore, in some embodiments, the security device may have three alarm features, e.g., the gates themselves alarming when the EAS tag is detected, the audible alarm of the security device itself triggering when its cable is compromised or otherwise tampered with, and the audible alarm of the security device triggering when the EAS tag is at, near, or beyond the security gates.
As discussed above, embodiments disclosed herein provide a security device. The security device may have a relatively compact design. For example, in the illustrated embodiment, the spool rotatable about the first axis of the security device and the locking mechanism and the button movable along the first axis of the security device. Moreover, each of the spool, the locking mechanism, and the button may be spatially centered about the first axis of the security device and the plug may be generally extend perpendicular to and through the first axis of the security device to prevent the relative movement between the spool, the locking mechanism, and the button along the first axis of the security device. Such an arrangement, i.e., a common axis (such as the first axis) between the spool, locking mechanism, and button and a plug for blocking a locking mechanism configured to move perpendicular to the common axis and between the button and the locking mechanism, allows for a relative compact design compared to some conventional security devices.
In the illustrated embodiment, the button is positioned on the bottom side of the housing. Placing the button on the bottom side of the housing may be considered unconventional because in such a location one would think that the merchandise is likely to inadvertently activate the button as the button is placed near or in direct contact with the merchandise. However, as discussed above, the plug is configured to block the activation of the button which minimizes an inadvertent activation by the merchandise. Moreover, in such a position, the button is inaccessible (and, thus, more tamper resistant) to consumers and would-be thief when the security device is secured to the object. Although the position of the button prevents inadvertent and unauthorized activation, the presence of the button still provides a relatively easy means for the employees of the retail establishment to use the security device.
As discussed above, the security device may also include an impact-resistant feature making it more difficult for a would-be thief to circumvent the locking features of the security device. Also, in the illustrated embodiment, the security device includes two sets of locking teeth extending along a perimeter of the locking mechanism which provides a relatively larger locking surface and, thus, improved locking structure, compared to some conventional security devices. One skilled in the art would appreciate the other improvements and enhancements that the security device, according to embodiments of the present invention, provides over some of the conventional security devices.
Many modifications and other embodiments of the inventions 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 the inventions 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. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
The present application is a continuation-in-part application of U.S. application Ser. No. 12/027,296 filed on Feb. 7, 2008. U.S. application Ser. No. 12/027,296 is hereby incorporated by reference in its entirety.
Number | Date | Country | |
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Parent | 12027296 | Feb 2008 | US |
Child | 12467803 | US |