ANTI-SWEEP MECHANISM FOR MERCHANDISE DISPLAY HOOK

Abstract

An anti-sweep mechanism for controlling removal of merchandise items from a forward dispensing end of a merchandise display hook the anti-sweep mechanism comprising a body having a first blocking portion and a second blocking portion, the body being rotatable between a first position and a second position wherein when the body is in the first position, the first blocking portion blocks forward movement towards the forward dispending end of merchandise items, and when the body is in the second position, the second blocking portion blocks forward movement of merchandize items behind a second blocking location that is spaced behind the first blocking location.

Claims

1. An anti-sweep mechanism for controlling removal of merchandise items from a forward dispensing end of a merchandise display hook, the anti-sweep mechanism comprising: a body; an anchor mechanism configured to releasably secure the body at different locations of the merchandise display hook behind the forward dispensing end; and the body being rotatable between a first position and a second position when secured to the merchandise display hook by the anchor mechanism, the body having a first blocking portion that is configured to, when the body is in the first position, block forward movement towards the forward dispensing end of merchandise items located behind a first blocking location of the merchandise display hook, and a second blocking portion that is configured to, when the body is in the second position, block forward movement of merchandize items located behind a second blocking location that is spaced behind the first blocking location.

2. The anti-sweep mechanism of claim 1 comprising an audible sound generator that is configured to generate an audible sound when the body rotates between the first and second positions.

3. The anti-sweep mechanism of claim 2 wherein the audible sound generator comprises a resilient member that rotates with the body and interacts with a surface of the anchor mechanism to generate the audible sound, the audible sound providing a repetitive audible indication that the anti-sweep mechanism is being rotated.

4. The anti-sweep mechanism of claim 1 in combination with the merchandise display hook, the merchandise display hook comprising a merchandise display rod for supporting the merchandise items, and a support rod extending substantially parallel to the merchandise display rod for supporting the anti-sweep mechanism.

5. The anti-sweep mechanism of claim 4 wherein the merchandise display rod comprises first and second parallel bars that terminate at the forward dispensing end.

6. The anti-sweep mechanism of claim 5 wherein the first and second parallel bars are joined by a U-shaped member at the forward dispensing end.

7. The anti-sweep mechanism of claim 4 wherein the support rod is secured to the merchandise display rod by a releasable mounting assembly.

8. The anti-sweep mechanism of claim 4 wherein the anchor mechanism is configured to, when secured to the support rod, engage the support rod to prevent axial sliding of the body relative to the merchandise display rod.

9. The anti-sweep mechanism of claim 1 wherein the body is configured so that when the body is mounted to the support member and rotating between the first position and the second position at least one of the first blocking portion and the second blocking portion block forward movement of merchandize items along the merchandise display rod.

10. The anti-sweep mechanism of claim 1 wherein the anchor mechanism comprises: a threaded member having a slot for receiving a portion of the merchandize display hook; and a set screw configured to engage threads of the threaded member and engage the merchandize display hook to secure the anchor mechanism to the merchandize display hook, wherein the threaded member is positioned within a cavity of the body.

11. The anti-sweep mechanism of claim 1 wherein the body includes a central portion that rotatably engages the anchor mechanism, a first arm extending rigidly in a first radial direction from the central portion and forming the first blocking portion, and a second arm axially spaced from the first arm and extending rigidly in a different, second radial direction from the central portion and forming the second blocking portion.

12. A merchandise display hook system comprising: a merchandise display hook having a forward dispensing end for dispensing merchandise items; and an anti-sweep mechanism for preventing sweeping of merchandise items from the dispensing end of the merchandise display merchandise display hook, the anti-sweep mechanism comprising a body with a first blocking portion and a second blocking portion fixed relative to each other, the body being mounted to the merchandise display hook and rotatable relative to an elongate axis of merchandise display hook between a first position and a second position, wherein: the first blocking portion is configured to: (i) block forward movement of merchandise items suspended from the merchandise display hook behind a first blocking location when the body is in the first position or within a first angular range of the first position, and (ii) not block movement of merchandise items along the merchandise display hook when the body is in the second position or within a second angular range of the second position, wherein the first blocking position is located behind the forward dispensing end merchandise display hook; the second blocking portion is configured to: (i) block forward movement of merchandise items suspended from the merchandise display hook behind a second blocking location that is located further from the dispensing end than the first blocking location, when the body is in the second position or within the second angular range, and (ii) not block movement of merchandise items along the merchandise display hook when the body is in the first position or within the first angular range; the body being configured so that one or both of the first blocking portion and the second blocking portion will, when the body is rotated within an angular range that is between the first angular range and the second angular range, block movement of merchandise items along the merchandise display hook towards the dispensing end.

13. The merchandise display hook system of claim 12 wherein the merchandise display hook comprises a merchandise display rod for supporting the merchandise items, and a support rod extending substantially parallel to the merchandise display rod and supporting the anti-sweep mechanism.

14. The merchandise display hook system of claim 13 wherein the merchandise display rod comprises first and second parallel bars for supporting the merchandise items.

15. The merchandise display hook system of claim 12 wherein the support rod is secured to the merchandise display rod by a releasable mounting assembly.

16. The merchandise display hook system of claim 12 comprising an audible sound generator that is configured to generate an audible sound when the body rotates between the first and second positions.

17. An anti-sweep mechanism for controlling removal of merchandise items from a merchandise display hook when the anti-sweep mechanism is mounted to the merchandise display hook, the anti-sweep mechanism comprising: a body configured to be rotatable about an axis between a first position and a second position to provide metered removal of merchandise items from the merchandise display hook; and an audible sound generator that is configured to generate an audible sound when the body rotates between the first and second positions.

18. The anti-sweep mechanism of claim 17 wherein the audible sound generator comprises a resilient member that rotates with the body and interacts with a surface of an anchor mechanism that secured the body to the merchandise display hook, the interaction between the resilient member and the anchor member generating the audible sound.

19. The anti-sweep mechanism of claim 18 wherein the audible sound provides a repetitive audible indication that the anti-sweep mechanism is being rotated.

20. The anti-sweep mechanism of claim 17 wherein when the body is in the first position a first portion of the body blocks forward movement of merchandise items along on the merchandise display hook behind a first blocking location that is behind the forward dispensing end of the merchandise display hook, and when the body is in the second position a second portion of the body blocks forward movement of merchandise items along on the merchandise display hook behind a second blocking location that is located behind the first blocking location.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] Reference will now be made, by way of example, to the accompanying drawings which show example embodiments of the present application, and in which:

[0014] FIG. 1 is a perspective view showing a merchandise display hook system that incorporates an anti-sweep mechanism located in a first position, according to example embodiments;

[0015] FIG. 2 is a perspective view showing the merchandise display hook system of FIG. 1 with the anti-sweep mechanism located in a second position;

[0016] FIG. 3 is a further perspective view showing the merchandise display hook system of FIG. 1 with the anti-sweep mechanism in the first position;

[0017] FIG. 4 is a further perspective view showing the merchandise display hook system of FIG. 1 with the anti-sweep mechanism in the second position;

[0018] FIG. 5 is a perspective view showing the merchandise display hook system of FIG. 1 with an exploded view of the anti-sweep mechanism;

[0019] FIG. 6 is a perspective view showing the merchandise display hook system of FIG. 1 with an exploded, partial-sectional view of the anti-sweep mechanism;

[0020] FIG. 7A is a schematic end view showing an anti-sweep mechanism in a first position, according to an example embodiment;

[0021] FIG. 7B is a schematic end view showing the anti-sweep mechanism of FIG. 7A within a first angular range of the first position;

[0022] FIG. 8A is a schematic end view showing the anti-sweep mechanism of FIG. 7A in a second position;

[0023] FIG. 8B is a schematic end view showing the anti-sweep mechanism of FIG. 7A within a second angular range of the second position;

[0024] FIG. 9 is a schematic end view showing the anti-sweep mechanism of FIG. 7A within an intermediate angular range;

[0025] FIG. 10A to 10F are perspective views illustrating a method of mounting an anti-sweep mechanism to a display hook according to an example embodiment

[0026] FIGS. 11 and 12 are perspective views showing a further example of a merchandise display hook system that incorporates an anti-sweep mechanism located in a first position, according to example embodiments;

[0027] FIGS. 13 and 14 are perspective views showing a further example of a merchandise display hook system that incorporates a mounting assembly for mounting a support rod to a display rod;

[0028] FIG. 15 is perspective views showing a further example of a merchandise display hook system that incorporates a mounting assembly for mounting a support rod to a display rod;

[0029] FIGS. 16, 17 and 18 are partial perspective sectional views illustrating an example of a merchandise display hook system that incorporates an audible sound generator according to example embodiments.

[0030] FIG. 19 shows an example of a nut of an anti-sweep mechanism of the merchandise display hook system of FIGS. 16, 17 and 18; and

[0031] FIG. 20 shows an example of a sound generating member of an anti-sweep mechanism of the merchandise display hook system of FIGS. 16, 17 and 18.

[0032] Similar reference numerals may have been used in different figures to denote similar components.

DESCRIPTION OF EXAMPLE EMBODIMENTS

[0033] The accompanying Figures illustrate one or more embodiments of a merchandise display hook system 90 for mounting on a display fixture 104, such as a pegboard, slat wall or slot wall, wire grid or bar rack. In the illustrated examples, the display fixture 104 shown herein is a conventional pegboard type display fixture commonly referred to as pegboard. The display hook system 90 comprises a display hook 98 and an anti-sweep mechanism 100 constructed in accordance with embodiments described below. The anti-sweep mechanism 100 is operable for increasing the amount of time required to remove a merchandise item 106 from the display hook 98, while still permitting a prospective customer to access and remove a merchandise item 106. Each merchandise item 106 is suspended from the display hook 98. Merchandise items 106 may include products in supplier packaging directly suspended from the display hook 98, as well as products secured within a safer or box that is suspended from the display hook 98. In example embodiments, the display hook 98 may be a conventional peg style display hook, also referred to as a peg hook, having a mounting structure suitable for mounting on the pegboard.

[0034] FIGS. 1 through 4 show an example embodiment of a display hook system 90 that include an anti-sweep mechanism 100 and a display hook 98 configured to be mounted onto a display fixture 104, such as pegboard. In the illustrated embodiments, the display hook 98 is an over/under parallel rod display hook that includes a lower merchandise display rod 102 and an upper support rod 110 that is spaced apart from and extends substantially parallel to the merchandise display rod 102. As indicated in the Figures the merchandise display rod 102 and support rod 110 may be joined at their respective pegboard mounting ends. A pegboard engagement interface 111 may be provided at the joined ends for securing the display hook 98 to display fixture 104. In some examples, a back plate may be secured to the back of the display fixture 104 to secure the pegboard engagement interface 111 in place and prevent unauthorized removal of the display hook 98 from the display fixture 104.

[0035] Merchandise items 106 can be suspended from the merchandise display rod 102 and pulled forward to be removed from a dispensing end 103 of the display rod 102. Dispensing end 103 may have an upward bend. The forward end of the support rod 110 may terminate with a lateral arm section 105, which may for example be used to support a display card or tag (not shown) that presents information about the suspended merchandise items 106. Although a parallel rod pegboard display hook 98 is shown and described herein for purposes of illustration and explanation, it will be readily apparent to those skilled in the art that the devices and systems described herein are applicable to other types and configurations of merchandise display hooks configured with suitable mounting structure for mounting on a different type of display fixture, such as, for example, slat wall or slot wall, wire grid, or bar rack.

[0036] In the illustrated examples the display rod 102 and support rod 110 have a circular cross-sectional area, however one or both could alternatively have other cross-sectional profile shapes including for example oval, elliptical, and polygonal (for example square, rectangular or U-shaped), among other things. In some examples the upper support rod 110 may be replaced with an alternative support member structure configured to support the anti-sweep mechanism 90 in spaced relation to the display rod 102. In one non-limiting example embodiment, anti-sweep mechanism 100 is configured to be mounted on a support rod 110 having a diameter of approximately inch, however the anti-sweep mechanism 100 can be configured for a wide range of support rod and display rod diameters diameters and configurations.

[0037] In example embodiments, the anti-sweep mechanism 100 is configured to control removal of merchandise items 106 from the forward dispensing end 103 of merchandise display rod 102. In this regard, the anti-sweep mechanism 100 includes a body 101 having a first blocking portion 112 and a second blocking portion 114. The body 101 is configured to be mounted to a support member such as support rod 110 and rotatable between a first position and a second position. FIGS. 1 and 3 show the body 101 in its first position. As illustrated, when the body 101 is in the first position, the first blocking portion 112 blocks forward movement of merchandise items 106 along the display rod 102 towards the forward dispending end 103. In particular, first blocking portion 112 blocks forward movement of merchandise items 106 located on the merchandise display rod 102 behind a first blocking location 180. When the body 101 is in the first position, the second blocking portion 114 is rotated away from the merchandise display rod 102 sufficiently to not interfere with movement of merchandise items 106 along the merchandise display rod.

[0038] FIGS. 2 and 4 show the body 101 rotated into its second position. As illustrated, when the body 101 is in the second position, the first blocking portion 112 is rotated away from the merchandise display rod 102 to not interfere with movement of merchandise items 106 along the merchandise display rod 102. However, the second blocking portion 112 blocks forward movement of any merchandize items 106 that are located on the merchandise display rod 102 behind a second blocking location 182 that is spaced a distance D (see FIG. 4) behind the first blocking location 180.

[0039] As will be described in greater detail below, in example embodiments the body 101 of the anti-sweep mechanism 100 is biased by a spring or other biasing mechanism into the first position and can be manually rotated from the first position to the second position by an external rotational force (represented by arrow 184 in FIGS. 1 and 3). Once the external force 184 is released, the body 101 automatically rotates back to the first position, as represented by arrow 186 in FIG. 4.

[0040] A possible configuration of the anti-sweep mechanism 100 according to an example embodiment will now be provided in greater detail with reference to FIGS. 5 and 6. In example embodiments, the body 101 includes a central portion 146 that defines an axial aperture 126 configured to receive the support member 110. The first blocking portion 112 of the body 101 is formed by a first arm 142 that extends in a first radial direction from the central portion 146. The second blocking portion 114 of the body 101 is formed by a second arm 144 that is axially spaced from the first arm 142 and extends in a different, second radial direction from the central portion 146. In the illustrated example, the first arm 142 and second arm 144 are angularly separated from each other by approximately ninety degrees and are axially separated by a distance that defines the distance D between the first merchandise blocking location 180 and second merchandise blocking location 182 noted above.

[0041] In the illustrated embodiment, the body 101 is formed from rigid plastic (for example a polycarbonate or an ABS material), although other rigid materials such as steel or steel alloys could be used. In example embodiments, the body 101 includes two joinable sections, namely a first body section 130, which includes first arm 112, and a second body section 132, which includes second arm 114. The first and second body sections 130, 132 define respective portions of axial aperture 126 and are configured to be cooperatively secured together to mount the body 101 on the support member 110. In the illustrated embodiment, the first body section 130 and the second body section 132 include cooperating tabs 210 and tab anchors 212 for securing the first body section 130 and second body section 132 together, however other securing means could be used such as a combination of through-holes, threaded holes and screws.

[0042] In the illustrated embodiment, the body 101 includes axial strengthening structures 188 provided on the axial sides of the central portion 146 to strengthen the body 101. As shown, the axial aperture 126 passes through the central portion 146 and the axial strengthening structures 188, with four openings being provided through wall structures of the body 101 to provide axial aperture 126.

[0043] In example embodiments, the first body section 130 and the second body section 132 collectively define an internal cavity 128 within the central portion 146 of the body 101. The internal cavity 128 is used to house an anchor mechanism 118 and the aforementioned biasing mechanism, which in the illustrated embodiment takes the form of a constant force flat coil torsion spring 116. In example embodiments, the anchor mechanism 118 is configured to secure the axial location of the body 101 relative to the support rod 110 and set the rotational positions of body 101 relative to support rod 110 and display rod 102.

[0044] In an example embodiment, the anchor mechanism 118 comprises a nut 122 having a cylindrical profile to facilitate rotation of the body 101. The nut 122 defines slot 134 for receiving a portion of the support rod 110, and a headed set screw 124 configured to engage threads of the nut 122 to enable a forward end of the set screw 124 and an opposed side of the nut 122 to compressively engage opposite sides of the support member 110 and thereby secure the anchor mechanism 118 in at a desired axial location and angular position on the support rod 110. In example embodiments, the exposed end of the headed set screw 124 defines a keyed tool receptacle that requires a correspondingly keyed tool to loosen and tighten the set screw 124.

[0045] Once the anchor member 118 is secured to the support rod 110 and the body 101 is mounted on the support rod 118 with the anchor member 118 received in internal cavity 128, opposed axial walls of body 101 that define the internal cavity 128 respectively contact opposite ends of the anchor member 118 to restrain axial movement of the body 101 along the support rod 110.

[0046] In an example embodiment, the body 101 defines a radial opening 136 that communicates with the internal cavity 126 and through which a portion of the set screw 124 extends, enabling the axial location and rotational position of the anchor member 118 on support rod 110 to be adjusted without removing the body 101 from the support member. Furthermore, in example embodiments, the radial opening 136 is a slot bounded by a first stop surface 138 for engaging the set screw 124 to prevent the body 101 from rotating in a first direction beyond the first position and a second stop surface 140 for engaging the set screw 124 to prevent the body 101 from rotating beyond the second position in an opposite rotational direction. In an example embodiment, the first stop surface 138 and second stop surface extend at substantially 90 degrees relative to each other.

[0047] In the illustrated embodiment, the flat coil spring 116 has a first outer end secured relative to the support rod 110 by the anchor mechanism 118, with the remaining coiled portion of the spring 116 being received within a portion of the internal cavity 128 that is axially off-set from the support rod 110. In one example, the secured end of the spring 116 includes an opening that has a smaller diameter than the head of headed set screw 124. A portion of the shaft of the headed set screw 124 passes through the spring end opening to anchor the spring end to the support member 110 while the portion of the spring 116 in internal cavity 128 biasingly engages the body 101. In alternative embodiments different spring configurations may be used to provide biasing, as well as different biasing mechanisms, for example gravity-based biasing based on unequal weighting of the blocking portions 112, 114.

[0048] In example embodiments, the first arm 144 may have a hook-like profile and includes a section 148 configured to extend under the merchandise display rod 102 when the body 101 is in the first position, and the second arm 146 may also have a hook-like profile and includes a section 150 configured to extend under the merchandise display rod 102 when the body 101 is in the second position. In example embodiments, a portion of the first arm 144 may contact or engage the merchandise display rod 102 at the first blocking location 180 when the body 101 is in the first position, and a portion of the second arm 146 may contact or engage the merchandise display rod 102 at the second blocking location 182 when the body 101 is in the second position.

[0049] The dimensions and angular and axial separation of the elements of the body 101 can be a configured based on the dimensions of the merchandise items that are to be secured, as well as the spacing between the support rod 110 and the display rod 102. By way of non-limiting example, in some example embodiments, an axial spacing of the first and second blocking portions 112, 114 is a dimension between approximately inch and 2 inches such that the second blocking location 182 is a dimension between approximately inch and 2 inches further from the dispensing end 103 than the first blocking location 180, and in some example embodiments the first and second blocking portions 112, 114 are each configured to radially extend to a maximum of between approximately 1.5 and 3 inches from the support rod 110.

[0050] Now that a description of the physical configuration of anti-sweep mechanism 100 has been provided, a summary of its operation will be described. The terms clockwise and counter clockwise will be used to describe the rotational direction of the body 101 of anti-sweep mechanism as it moves between first and second positions, although it will be appreciated that the rotational directions can be reversed relative to those in the illustrated examples. Referring to FIGS. 1 and 2, anti-sweep mechanism 100 may provide metered control of the removal of merchandise items 106 from the display hook 98 as follows. As shown in FIG. 1, the body 101 is in its first position and suspended merchandise items 106 are all located behind the first blocking location 160. The first blocking portion 112 of the body 101 is located in front of the merchandise items 106 and blocks their forward movement towards the dispensing end 103 of display hook 102. The second blocking portion 114 is positioned so it is out of any contact with the merchandise items 106, allowing the leading merchandise items 106 to be moved into a region between the first blocking location 180 and the second blocking location 182. In example embodiments, the axial spacing between first blocking portion 112 and second blocking portion 114 is configured so that there is generally only room for one merchandise item 106 to be located between the first blocking location 180 and the second blocking location 182 at a given time.

[0051] As indicated by arrow 184 in FIG. 1, when a prospective customer applies a rotational force (e.g. clockwise force in the illustrated example) the body 101 rotates clockwise (indicated by arrow 185) approximately 90 degrees to the second position, shown in FIG. 2. In example embodiments, a widened concave region 190 is formed on an upper surface of the second arm 144 to provide a user interface surface for the rotational force applying finger of the prospective customer. Aside from providing a comfortable pressing surface for the prospective customer, widened concave region 190 provides a visual indication to the prospective customer of how to operate the merchandise dispensing mechanism 100.

[0052] As shown in FIG. 2, when the body 101 is in the second position, the second blocking member 114 is rotated into a position whereby it blocks forward movement of any merchandise items located behind the second blocking location 182. At the same time, the first blocking member 112 is rotated clockwise out of any contact with the merchandise items 106, allowing the leading merchandise item 106 that was located forward of the second blocking location 182 to be slid forward along the display rod 102 and removed from the dispensing end 103, as indicated by arrow 192 in FIG. 2.

[0053] The body 101 remains in the second position only while external rotational force 184 is applied. When the prospective customer stops applying force, the biasing force applied by spring 116 causes the body 101 to rotate counterclockwise, indicated by arrow 186 in FIG. 2, and return to its first position, shown in FIG. 1. The process described above can be reversed to load merchandise items 106 onto the display rod 102

[0054] It will thus be appreciated that the anti-sweep mechanism 100 can be used to control the dispensing of merchandise items 106 from the display rod 102 and prevent sweeping of large numbers of merchandise items 106 off of the display rod 102. In at least some example embodiments, the anti-sweep mechanism 100 can be mounted onto a conventional dual-rod merchandise display hook, which may improve convenience and reduce cost for a retailer who already has double rod-display hooks. In example embodiments, the anti-sweep mechanism 100 can be conveniently retrofitted on an existing dual-rod display hook without removing any merchandise items that are already suspended from the hook.

[0055] In some example embodiments, the small number of parts required for anti-sweep mechanism 100 may provide reliability and endurance over multiple use cycles.

[0056] FIGS. 7A through 9 are schematic views presented to illustrate that in at least some examples the first position corresponds to a maximum rotation (e.g. counterclockwise rotation) of the body 101 in a first angular range and the second position corresponds to a maximum rotation (e.g. clockwise rotation) of the body 101 in a second angular range. In this regard FIG. 7A is a schematic end view showing anti-sweep mechanism 100 with body 101 in the first position, and FIG. 7B is a schematic end view showing the anti-sweep mechanism 100 within a first angular range 202 of the first position. As shown in FIGS. 7A and 7B, the first blocking portion 112 is configured to block forward movement of merchandise items 106 behind the first blocking location 180 when the body 101 is in the first position (illustrated by dashed line 200) as well as when the body 101 is rotated within a first angular range 202 of the first position, while at the same time the second blocking portion 114 does not block forward movement of the merchandise items 106 when the body 101 is rotated within the first angular range 202.

[0057] Similarly, FIG. 8A is a schematic end view showing the anti-sweep mechanism 100 with body 101 in the second position, and FIG. 8B is a schematic end view showing the anti-sweep mechanism 100 within a second angular range 204 of the first position. As shown in FIGS. 8A and 8B, the second blocking portion 114 is configured to block forward movement of merchandise items 106 behind the second blocking location 182 when the body 101 is in the second position (illustrated by dashed line 203) as well as when the body 101 is rotated within a second angular range 204 of the first position, while at the same time the first blocking portion 112 does not block forward movement of the merchandise items 106 when the body 101 is rotated within the second angular range 202.

[0058] As illustrated in FIG. 9, when the body 101 rotates through an intermediate angular range between the first and second angular ranges 202, 204, both the first and second blocking portions 112, 114 are positioned to block movement of merchandise items 106 along the merchandise display rod 102 towards the dispensing end 103.

[0059] A method for mounting the anti-sweep mechanism 100 to a support member such as support rod 110 will now be described with respect to FIGS. 10A to 10F, according to an example embodiment. First, the anchor mechanism 118 is secured to the display rod in the manner shown in FIGS. 10A to 10C. In particular, as shown in FIG. 10A, cylindrical nut 122 is slid radially onto support rod 110 so that a portion of the support rod 110 is received within the nut slot 134. A forward end of set screw 124 is threaded through a hole in end of flat coil spring 116 and into threaded engagement with the nut 122. Tightening of the set screw 124 causes the nut 122 and set screw 124 to opposingly engage opposite surfaces of the support rod 110. As illustrated in FIG. 10B, the location of anchor mechanism 118 on support rod 110 can be axially adjusted to a desired location prior to a full tightening of the screw 124. Similarly, as illustrated in FIG. 10D, the rotational or angular position of anchor mechanism 118 on support rod 110 can be rotated to a desired position prior to a full tightening of the screw 124.

[0060] Once the anchor mechanism 118 is mounted on support rod 110, the body 101 can be mounted on the support rod 110. As illustrated in FIGS. 10D and 10E, first and second body sections 130, 132 are brought together from opposite sides of support rod 110 to position the anchor mechanism 118 and spring 116 within respective regions of internal cavity 128 and align the semi-circles that define axial aperture 126 with the support rod 110. The cooperating tabs 210 and tab anchors 212 are snapped into place to secure the body 101. As shown in FIG. 10F, the end of headed set screw 124 is exposed through the slot opening 136 of mounted body 101, allowing a tool (for example a keyed hex wrench) to be used to loosen and tighten the set screw 124 and thereby adjust the axial location and angular position of the body 101 relative to support rod 110.

[0061] The above illustrated examples the display rod 102 and support rod 110 of display hook 98 have a circular cross-sectional area. However, as noted above, one or both could alternatively have other cross-sectional profile shapes including for example oval, elliptical, and polygonal (for example square, rectangular or U-shaped), among other things. In this regard, FIGS. 11 and 12 illustrate an example embodiment in which display rod 102 has a parallel bar loop configuration that is formed from first and second parallel bars 252, 254 that are joined by a U-shaped connecting member 256 that forms forward dispensing end 103 of the display rod 102. Merchandise items 106 are mounted on the parallel bars 252, 254 of the display rod 102. When anti-sweep mechanism 100 is in the first position, the first blocking member 112 engages the first bar 252 of display rod 102 at a location that corresponds to the first blocking location that is located behind the forward dispensing end 103, and when anti-sweep mechanism 100 is in its second position, the second blocking member 114 engages the second bar 254 of display rod 102 at a location corresponding to the second behind the forward dispensing end 103.

[0062] Referring to FIGS. 13 and 14, in some example embodiments support rod 110 of display hook 98 can be secured by a mounting assembly 260 that is securable to the display rod 102 of display hook 98, thereby allowing retrofitting of a support rod 110 and anti-sweep mechanism 100 to an existing display hook 98. In the example of FIGS. 13 and 14, mounting assembly 260 enables support rod 110 to be rigidly mounted substantially parallel to display rod 102 forward of pegboard engagement interface 111. In an example embodiment, the mounting assembly 260 includes a spacing member 262, an anchor member 264, and a headed set screw 268. Anchor member 264 defines a slot for receiving a portion of the support rod 102 and threads for engaging set screw 268, enabling the anchor member 264 to be rigidly secured to display rod 102. In example embodiments, the exposed end of the headed set screw 268 defines a keyed tool receptacle that requires a correspondingly keyed tool to loosen and tighten the set screw 268.

[0063] As illustrated in FIG. 15, in example embodiments, mounting assembly 260 can also be used to secure support rod 110 to U-bar versions of display rod 102. For example, mounting assembly 260 could rigidly secure support rod 110 to one of first and second bars 252, 254.

[0064] With reference to FIGS. 16 to 20, in a further example embodiment, an audible sound generator is incorporated into the anti-sweep mechanism 100 that causes an audible sound to be generated when the anti-sweep mechanism rotates clockwise (indicated by arrow 185) or counterclockwise (indicated by arrow 186). As illustrated and described above, the nut 122 of anchor mechanism 118 can have a C-shaped cylindrical profile to facilitate rotation of the body 101 of anti-sweep mechanism 100. In example embodiments, an outer surface of the nut 122 is knurled to provide a series of notches or ridges 274. A resilient sound generating member 272 secured within the body 101 (for example, to second body section 132) is configured to repeatedly engage and release the notches or ridges 274 on the outer surface of the nut 122 as the body 101 rotates relative to nut 122. The interaction between the sound generating member and the nut 122 of the anchor mechanism 118 during rotation generates a repetitive audible sound (indicated as click !!, click!!, click!! in FIGS. 17 and 18, that provides a distinctive audible indication to nearby personal that the anti-sweep mechanism 100 is being rotated. This audible feedback may, in at least some applications, be sufficient to allow monitoring personal hear when the anti-sweep mechanism 100 is being rotated repeatedly back and forth in a manner that indicates potentially nefarious activities. In the illustrated example, the audible sound is generated solely through mechanical interaction between resilient sound generating member 272 and the nut 122 that causes a periodic build up and release of energy. However, in alternative embodiments electrically powered sound generating systems could be used.

[0065] In some examples, the terms substantially and approximately mean within +/20% of a value or references, unless the context indicates otherwise. Certain adaptations and modifications of the described embodiments can be made. Therefore, the above discussed embodiments are considered to be illustrative and not restrictive.