Many different retail display techniques, including tables, shelves, and peg boards with various rods and brackets attached thereto, are typically used for the retail display of dinnerware. Dinnerware typically includes plates, cups, and saucers in corresponding styles, patterns, colors, etc. Accordingly, it is often desirable to display corresponding pieces together so that a prospective purchaser can better view a suggested place setting arrangement. However, such retail displays tend to require a relatively large amount of display space, thereby complicating the display of multiple place settings or groupings in a single area. Moreover, consumer handling of dinnerware can lead to inadvertent breakage or other damage, shoplifting, or other problems In other instances, dinnerware is merely displayed as a photograph or sketch on a front or side of a box containing at least one piece or place setting of the dinnerware.
One aspect of the present invention provides a fixture for displaying dinnerware including a base, a track, and a dinnerware mount. The base is configured to support a piece of dinnerware. The track is coupled to and extends generally perpendicular to the base. The dinnerware mount is slidably coupled to the track and includes a first arm and a second arm circumferentially spaced from one another. Each of the first arm and the second arm define a clasp for receiving a portion of the piece of dinnerware. When the dinnerware mount is in a first position with respect to the track, the piece of dinnerware is maintained between the base and the dinnerware mount. When the dinnerware mount is in a second position with respect to the track, the piece of dinnerware is removable from between the base and the dinnerware mount. Other features and advantages are also disclosed.
Embodiments of the invention will be described with respect to the figures, in which like reference numerals denote like elements, and in which:
One embodiment of a dinnerware fixture 10 is illustrated in
As illustrated in
More particularly,
Back wall 34 includes a slot 40 generally centered laterally and extending downward from an upper edge of back wall 34 opposite bottom wall 36. A pair of generally L-shaped apertures 42 and 43 are collectively defined by back wall 34 and bottom wall 36. More particularly, a long leg 44 of each aperture 42 and 43 extends from bottom wall 36 upward through a portion of back wall 34. A short leg 45 of each aperture extends from back wall 34 partially along bottom wall 36. An additional elongated aperture 46 is collectively defined laterally along the intersection between bottom wall 36 and front wall 38.
In one embodiment, plate reception portion 30 includes a first side wall 48 and a second side wall 50. Each side wall 48 and 50 extends front to back between back wall 34, bottom wall 36, and front wall 38 opposite one another. In one embodiment, each side wall 48 and 50 defines an upper edge 52 opposite bottom wall 36 having a slope or curvature to facilitate reception of plate 16 as will be further described below. Side walls 48 and 50 contribute to the overall rigidity of base 20. With the above in mind, plate reception portion 30 is generally formed as an open box or cavity.
Cup reception platform 32 extends forward from an upper edge of front wall 38 opposite bottom wall 36. More particularly, in one embodiment, cup reception platform 32 extends in a generally planar manner to define a top surface 54 and a bottom surface 56. In one embodiment, cup reception platform 32 tapers forward from plate reception portion 30 and/or terminates in a circular or curvilinear manner opposite plate reception portion 30. In one embodiment, a rectangular aperture 57 is laterally centered near the back of and extends through the entire thickness of cup reception platform 32. Rectangular aperture 57 is orientated to extend in a generally lateral direction.
In one embodiment, a generally T-shaped aperture 58 is laterally centered on and extends through the entire thickness of cup reception platform 32. T-shaped aperture 58 is positioned in front of rectangular aperture 57 and is orientated with a longitudinally extending portion 60 extending back from a laterally extending portion 62 toward rectangular aperture 57. A first side aperture 64 is laterally spaced to one side of T-shaped aperture 58. A second side aperture 66 is laterally spaced to the opposite side of T-shaped aperture 58.
In one embodiment, as illustrated in
Wall interface portion 82 generally extends backward from spine portion 88 opposite laterally extending portion 90. In one embodiment, wall interface portion 82 defines a first side wall 94, a second side wall 96, and a back wall 98. Each side wall 94 and 96 extends backward from an opposite side edge of spine portion 88. Back wall 98 extends between side walls 94 and 96 opposite spine portion 88. In one embodiment, back wall 98 is spaced from spine portion 88 a distance in the range of about 1 inch to about 4 inches.
Wall interface portion 82 includes a plurality of pegs or hooks 100 extending from back wall 98 and configured to be received by adjacent holes 102 in wall 12 as illustrated with reference to
Each spacer 84 and 86 extends back from laterally extending portion 90 a similar distance as wall interface portion 82 extends back from laterally extending portion 90. In one embodiment, each spacer 84 and 86 extends from laterally extending portion 90 a distance in the range of about 1 inch to about 4 inches. First spacer 84 is laterally spaced from second spacer 86, and each spacer is generally planar. In one embodiment, first and second spacers 84 and 86 collectively are generally laterally centered on laterally extending portion 90. In one embodiment, as illustrated with reference to the cross-sectional view of
Second arm 112 extends from near center point of plate mount 24 with an angled orientation extending partially upward and partially laterally outward. A clasp 124 is defined at an end of second arm 112 opposite aperture 116. In one embodiment, clasp 124 includes a first clasp portion 126 and a second clasp portion 128. First clasp portion 126 extends forward from end of second arm 112. Second clasp portion 128 extends generally inward back toward aperture 116 and slightly angled backward toward the remainder of second arm 112. First clasp portion 126 is coupled to end of second arm 112 with suitable give or flexibility such that first clasp portion 126 is allowed to slightly rotate or bend about the intersection between end of second arm 112 and first clasp portion 126 upon the application of a suitable force to first clasp portion 126. Second clasp portion 128 is similarly formed with suitable give to allow slight rotation or bending about the intersection between first clasp portion 126 and second clasp portion 128 upon the application of sufficient force.
Third arm 114 extends from center point of plate mount 24 with an angled orientation extending partially upward and partially laterally outward opposite second arm 112. A clasp 130, similar to clasp 124, is defined at an end of second arm 112 opposite aperture 116. Accordingly, arms 110, 112, and 114 are circumferentially spaced from one another. In one embodiment, arms 110, 112, and 114 are positioned to form and angle between each of the adjacent arms 110, 112, and 114 in the range of about 120° to about 160°. In one embodiment, first arm 110 is positioned about 130° from each of second and third arms 112 and 114. Alternatively, arms 110, 112, 114 are positioned in any other arrangement suitable to maintain plate 16, as will be further described below.
Referring once again to
Main portion 144 defines a bottom edge 156, and a first hook or tab 158 and a second hook or tab 160 each extending downward from bottom edge 156. Second hook 160 is spaced from first hook 158 such that hooks 158 and 160 are positioned opposite one another. In one embodiment, each hook 158 and 160 is formed with suitable give or flexibility to bend slightly inward from bottom edge 156 upon application of a suitable force while maintaining a bias to extend vertically downward or slightly outward from bottom edge 156.
In one embodiment, secondary portion 146 includes a first section 162 and an elongated hook or tab 164. First section 162 extends back from bottom edge 156 of main portion 144 in a generally horizontal manner. Elongated hook 164 extends from first section 162 opposite main portion 144 in a generally downward manner. In one embodiment, elongated hook 164 extends downward from first section 162 a similar distance as hooks 158 and 160 extend downward from bottom edge 156 of main portion 144. Elongated hook 164 is formed with suitable give or flexibility to bend forward about its intersection with first section 162 upon the application of a suitable force while being biased to extend vertically downward or slightly backward from first section 162. In one example, a brace 166 extends from a top surface of first section 162 upward to interface with a back surface of main portion 144 to provide additional rigidity to cup mount support 140. In one embodiment, brace 166 is generally triangularly shaped.
Back support 170 includes an elongated slot 176 extending generally vertically along a center of back support 170. In one embodiment, a rib 178 extends along the center of the outside surface of the entire hook 142. Rib 178 provides extra rigidity to hook 142. In one example, rib 178 extends along the back center of back support 170 around each side of slot 176, over the top of intermediate section 172, and along the front of front section 174.
In one embodiment, each of base 20, back support 22, plate mount 24, cup mount support 140, and cup mount hook 142 is individually formed of injection molded plastic, such as polycarbonate, or other suitable material. In one embodiment, each piece 20, 22, 24, 140, and 142 is formed of a generally clear or transparent material so as to lessen distractions to a consumer viewing dinnerware 14.
Referring to
Plate mount 24 is coupled to back support 22. In particular, in one embodiment, plate mount 24 is positioned with respect to back support 22 to align aperture 116 and clip 118 with slot 40. Once aligned, plate mount 24 is pushed toward back support 22 to force clip 118 through slot 40, wherein clip portions 120 and 122 bend toward each other to slide through slot 40. Further application of force pushes clip portions 120 and 122 further through slot 40, and clip portions 120 and 122 bend back to their biased position to partially secure plate mount 24 to back support 22. Accordingly, plate mount 24 is at least partially coupled with back support 22 via a snap-fit connection.
An adjustable fastener 180, such as a bolt, screw, etc., is thread from front of plate mount 24, through aperture 116, and through slot 40 to back of back support 22. A nut, wing nut, or other fastener interface piece 182 is placed on fastener 180 from back of back support 22 to secured plate mount 24 to back support 22. In one embodiment, when fastener interface piece 182 is loosened, plate mount 24 can be selectively slid along slot 40 to vertically adjust the height clasps 124 and 130 are spaced from base 20. Once plate mount 24 is positioned as desired, fastener interface piece 182 is tightened upon fastener 180 to secure plate mount 24 in place with respect to base 20 and back support 22. In one embodiment, elongated aperture 46 is provided in back wall 34 of base 20 so as not to block or interfere with movement of clip 118 along slot 40 and the corresponding movement of plate mount 24 along back support 22.
Cup mount support 140 is coupled to base 20. More particularly, in one embodiment, cup mount support 140 is positioned to align hooks 158, 160, and 164 with apertures 64, 66, and 58, respectively. Application of downward pressure on cup mount support 140 forces hooks 158, 160, and 164 through the respective apertures 64, 66, and 58 where hooks 158 and 160, and 164 are slightly bent to pass through aperture 64, 66, and 58 and upon full passage, unbend to their biased position to secure cup mount support 140 to base 20, more particularly, to cup reception platform 32. Accordingly, cup mount support 140 extends above cup reception platform 32 in a generally upward, manner, perpendicular to cup reception platform 32.
Cup mount support 140 selectively receives cup mount hook 142. More specifically, back support 170 of cup mount hook 142 is received within groove 148 of cup mount support 140 and held between back wall 154 and tabs 150. The position of hook 142 is adjustable up and down within groove 148. A fastener 184, similar to fastener 180 is thread through slot 176 in hook 142 and through aperture 152 of back wall 154 of cup mount support 140. A fastener interface piece 186, similar to fastener interface piece 182, such as a wing nut, is coupled to back of fastener 184 to clamp hook 142 in position along cup mount support 140.
Upon assembly of dinnerware fixture 10, dinnerware 14 is placed on dinnerware fixture 10. More specifically, plate mount 24 is raised with respect to back support 22 and plate 16 is positioned on base 20 so a portion of a plate perimeter edge 190 is received within elongated aperture 46 of plate reception portion 30. Plate 16 is leaned back from aperture 46 to rest back upon plate mount 24. Plate mount 24 is adjusted upon back support 22 to a height in which opposite portions of plate edge 190 are received within clasps 124 and 130 of plate mount 24. As such, plate 16 is clamped between claps 124 and second arm 112 and clasp 130 and third arm 114. In one embodiment, clasps 124 and 130 selectively bend slightly outward upon application of a suitable force to facilitate placement of plate 16 between clasps 124 and 130 and arms 112 and 114. Once positioned to securely maintain plate 16 on dinnerware fixture 10, fastener interface piece 182 is tightened to fastener 180 to securely hold plate mount 24 in the selected position, thereby securing plate 16 to dinnerware fixture 10.
Cup mount hook 142 is raised with respect to or removed from cup mount support 140, and cup 18 is placed upon cup reception platform 32 in front of cup mount support 140. Cup mount hook 142 is coupled with cup mount support 140 by placing vertical support 170 within groove 148 between back wall 154 and tabs 150. Cup mount hook 142 is slid down through groove 148 to receive side wall of cup 18 between vertical support 170 and front section 174. Once positioned to receive side wall of cup 18, fastener interface piece 186 is tightened to fastener 184 to secure cup mount hook 142 to cup mount support 140, thereby securing or clamping cup 19 between cup mount hook 142 and cup reception platform 32.
Dinnerware fixture 10 with plate 16 and cup 18 is mounted to peg board wall 12. In particular, dinnerware fixture 10 is positioned so each peg 100 is received by a corresponding hole 102 in peg board wall 12. Once pegs 100 are positioned within peg board wall 12, dinnerware fixture 10 is rotated down until spacers 84 and 86 interact with wall 12 opposite base back wall 34. In one embodiment, wall interface portion 82 and spacers 84 and 86 are sufficiently long to allow dinnerware fixture 10 to be hung after plate 16 is secured to dinnerware fixture 10 without causing plate 16 to hit wall 12 when dinnerware fixture 10 is tilted to align pegs 100 with holes 102. In one embodiment, dinnerware fixture 10 is mounted onto a wire fixture (not illustrated) including a plurality of generally horizontal and generally parallel wires. In this embodiment, pegs 100 are positioned between two of the parallel wires to hang dinnerware fixture 10 from the wire fixture.
Dinnerware fixture 10 is hung on wall 12 such that main member 80 of back support 22 has a generally vertical orientation. In one embodiment, plate 16 and cup 18 are not easily removable from dinnerware fixture 10 while hung on wall 12 in order to deter consumers from removing plate 16 and cup 18 for general handling, inspection, or other purposes. In an alternative embodiment, plate 16 and cup 18 are secured to dinnerware fixture 10 after dinnerware fixture 10 is hung from wall 12. In one embodiment, label or sign 72 is placed on display face of base 20 either before or after dinnerware fixture 10 is hung from wall 12.
With reference to
Continuing to refer to the embodiment of
In one embodiment, deep dinnerware fixtures 10 are staggered and alternated with or positioned adjacent shallow dinnerware fixtures 200 such that a plate 16 held by a deep dinnerware fixture 10 extends partially in front of a plate 16 held by shallow dinnerware fixture 200. Due in part to this overlap of plates 16, dinnerware fixtures 10 and 200 can be placed nearer to one another than in an embodiment in which all dinnerware fixtures 10 and 200 are either shallow or deep. Therefore, more dinnerware 14 can be displayed to consumers in a given retail display area.
As illustrated in
In one embodiment, dinnerware display 210 is positioned near the boxed or unboxed dinnerware corresponding to plates 16 and cup 18 displayed. With this in mind, a consumer viewing pates 16 and cups 18 of display 210 can easily locate the corresponding dinnerware goods for subsequent purchase.
A dinnerware fixture according to embodiments of the present invention provides for an aesthetically pleasing way of displaying dinnerware to a consumer audience. The adjustability of the dinnerware fixtures described herein allow the dinnerware fixture to accommodate plates and cups or glasses of various sizes and shapes. Accordingly, the dinnerware fixture initially assembled to receive a first type or size of plate and cup, can subsequently be adjusted and reused to receive and display a different type or size of plate and cup. The method of securing such plates and cups to each dinnerware fixture according to embodiments of the present invention also deters consumer handling of the dinnerware, which could lead to dinnerware breakage or other undesirable mishaps. Moreover, the staggered arrangement of deep and shallow dinnerware fixtures allows more plates and cups to be displayed in a given retail area. With this in mind, the embodiments of the dinnerware fixture described herein provide for an aesthetically pleasing and practical dinnerware display.
Although the invention has been described with respect to particular embodiments, such embodiments are for illustrative purposes only and should not be considered to limit the invention. Various alternatives and change will be apparent to those of ordinary skill in the art. For example, although generally described as being round or cylindrical, a light box can be formed in a variety of shapes and sizes. Additional modifications and changes will further be apparent to those of ordinary skill in the art.
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Number | Date | Country | |
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20060102567 A1 | May 2006 | US |