N/A
The present invention generally relates to a shelving display formed from a blank of material having a plurality of shelves each cooperatively formed by a first panel and a second panel.
A variety of systems are used to display merchandise. Some of these systems can be costly and difficult to manufacture, as well as ship or set up on site.
The present invention provides an embodiment of a shelving display that overcomes the problems of prior displays.
A shelving display is disclosed having a back wall having a generally U-shaped portion removed defining two spaced-apart, deflectable tabs, a stop panel therebetween, and a pair of slots. One of each slot is associated respectively with one of each of the two deflectable tabs and extends through the back wall. A first side wall extends from a first side of the back wall toward a front portion of the display. A second side wall extends from a second side of the back wall toward a front portion of the display. A first shelf formed from a first shelf component and a second shelf component extends between the first side wall and the second side wall. The first shelf component has a first shelf panel extending between the first side wall and the second side wall approximately midway from the back wall to the front portion of the display. The first shelf panel is integrally connected to a strip of material glued to an interior surface of one of the first and second side walls. A leading edge of the first shelf panel has a pair of spaced-apart flanges, one of each of the flanges being positioned respectively in one of each of the pair of slots. A portion of each of the pair of flanges extends outward of the back wall. The second shelf component has a second shelf panel extending between the first side wall and the second side wall proximate the front portion of the display.
Also disclosed is a multiple shelve shelving display having a back wall having a generally U-shaped portion removed defining two spaced-apart, deflectable tabs, a stop panel therebetween, and a pair of slots. One of each slot is associated with one of each of the two deflectable tabs and extends through the back wall. A first side wall extends from a first side of the back wall toward a front portion of the display. A second side wall extends from a second side of the back wall toward a front portion of the display. A plurality of shelves extend between the first side wall and the second side wall and are vertically spaced from one another. Each shelf of the plurality of shelves includes a first shelf component and a second shelf component extending between the first side wall and the second side wall. The first shelf component has a first shelf panel extending between the first side wall and the second side wall approximately midway from the back wall to the front portion of the display. The first shelf panel is integrally connected to a strip of material glued to an interior surface of one of the first and second side walls. A leading edge of the first shelf panel has a pair of spaced-apart flanges, one of each of the flanges being positioned respectively in one of each of the pair of slots. A portion of each of the pair of flanges extends outward of the back wall. The second shelf component has a second shelf panel extending between the first side wall and the second side wall proximate the front portion of the display.
Also disclosed is a blank of corrugated material for creating a shelving display having two-part shelves. The blank has a back wall panel having a plurality of U-shaped cutouts spaced from one another and each of the plurality of U-shaped cutouts define two spaced-apart, deflectable tabs, a stop panel therebetween, and a pair of slots. One of each slot is associated with one of each of the two deflectable tabs and extends through the back wall panel. The back wall panel is integrally connected on a first side to a first side of a positioning panel. The positioning panel is integrally connected on a second side to a first side of a first shelf panel. The back wall panel is integrally connected on a second side to a first side of a first side wall panel, the first side wall panel integrally connected on a second side to a first side of a second shelf panel. The second shelf panel is integrally connected on a second side to a first side of a second side wall panel. The first shelf panel includes a plurality of first shelf components and the second shelf panel includes a plurality of second shelf components. Each of the plurality of second shelf components of the second shelf panel cooperate with a corresponding one of the plurality of first shelf components of the first shelf panel to form a plurality of shelves for the display.
Other features and advantages of the invention will be apparent from the following specification taken in conjunction with the following figures.
To understand the present invention, it will now be described by way of example, with reference to the accompanying figures in which:
While this invention is susceptible of embodiments in many different forms, there is shown in the figures and will herein be described in detail preferred embodiments of the invention with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to the embodiments illustrated.
A shelving display 10 is shown set-up in
A plurality of shelves 18 are supported between the first side wall 12 and the second side wall 14. The bottom shelf of the plurality of shelves 18 includes a front panel 20 that extends downward to the floor to form a base of the shelving display 10 along with lower portions of the first side wall 12, the second side wall 14, and the back wall 16. The embodiment shown in
Referring to
The blank 24 includes a back panel which forms the back wall 16. A panel that forms the first side wall 12 is integrally connected on one side to a first side of the panel that forms the back wall 16. The panel that forms the back wall 16 is integrally connected on its other side to a first side of a positioning panel 26.
The positioning panel 26 is integrally connected on a second side to one side of a first shelf panel 28. The first shelf panel 28 includes a plurality of first shelf components 30. Each of the first shelf components 30 includes a slot 32. The first shelf panel includes a segmented front panel 51 having a first portion 51a and a second portion 51b. The panel 30 is folded 90° downward toward the back wall 16 from the first portion 51a and the second portion 51b is removed.
A relatively thin strip panel 34 is integrally connected to the other side of the first shelf panel 28. The thin strip panel is provided with glue for securing the panel to another portion of the shelf display 24. A plurality of “X's” 36 are used to generally indicate the preferred areas for applying the glue.
The first side wall 12 is integrally connected on an opposing side (to the side connected to the back wall panel 16) to a first side of a second shelf panel 38. The second shelf panel 38 includes a plurality of second shelf components 40. The plurality of second shelf components 40 correspond to the plurality of first shelf components 30. Each of the plurality of second shelf components 40 includes a tab portion 42. The lower most shelf of the plurality of second shelf components 40 includes the front panel 20 that, in part, forms the base of the shelving display 10.
The second shelf panel 38 is integrally connected on a second side to a panel that forms the second side wall 14. The second side wall 14 also includes glue areas designated by “X's” 44.
The blank 24 also includes bottom flaps 46 extending downward from the first and second side walls 12, 14, the back wall 16 and the second shelf panel 38. The bottom flaps 46 are folded under the shelving display 10 when set up and form part of the base portion.
To set up the shelving display 10 from the blank 24, both the first side wall 12 and the positioning panel 26 are folded forward to be at a right angle with respect to the back wall 16. The first shelf panel 28 is then folded toward the first side wall 12, and the thin strip 34 is glued to an interior surface of the first side wall 12. This supports the first shelf panel 28 parallel to the back wall 16 at a distance equal to the width of the positioning panel 26.
The first shelf components 30 can be folded back toward the back wall 16 to form a back portion for each of the plurality of shelves 18. The first shelf components 30 can be glued to the back wall 16, or include structure, such as a tab 47, that can fit in slots 48 in the back wall 16. The slot 48 includes a horizontal portion 50 and two vertical portions 52, 54 on either side of the horizontal portion 50. A U-shaped opening 56 proximate the middle of the horizontal portion 50 is provided to allow one to pull a portion of the back wall 16 defined by the slots 48 and allow for placement of the tabs 47.
The second shelf panel 38 is folded across the first shelf panel 28, and the second side wall 14 is folded back toward the back wall 16. The glue on the second side wall 14 is used to secure the second side wall 14 to an outer surface of the positioning panel 26.
Once the second shelf panel 38 is positioned, the plurality of second shelf components 40 can be folded back toward the back wall 16 to form a complete shelf with the first shelf components 30 from the first shelf panel 28. The tabs 42 on the second components 40 can be inserted into the slots 32 on the first shelf components 30 to lock the first shelf component 30 to the second shelf component 40. Front panel 22 has a first portion 22a and a second portion 22b separated by a fold line. The panel 40 is folded 90° downward from the first portion 22a and the second portion 22b is folded 180° upward to be parallel with and positioned behind the first portion 22a. The second portion 22b includes a first tab 60 and a second tab 62 which are inserted into corresponding first and second slots 64, 66 on the top edge of the front panel 22 and the second shelf component 40.
The blank 124 includes a back panel which forms the back wall 116. A panel that forms the first side wall 112 is integrally connected on one side to a first side of the panel that forms the back wall 116. The panel that forms the back wall 116 is integrally connected on its other side to a first side of a positioning panel 126. A plurality of U-shaped cutouts 101 in the back wall 116 are spaced from one another from a top edge of the blank 124 to a bottom edge of the blank as best seen in
The positioning panel 126 is integrally connected on a second side to one side of a first shelf panel 128. The first shelf panel 128 includes a plurality of first shelf components 130. Each of the first shelf components 130 includes a tab receiving portion 111. As explained below, the first shelf components 130 are utilized to form the shelves 118 shown in
A relatively thin strip panel 134 is integrally connected to the other side of the first shelf panel 128. The thin strip panel 134 is provided with glue for securing the panel to another portion of the shelf display 134. A plurality of “X's” 134 are used to generally indicate the preferred areas for applying the glue.
The first side wall 112 is integrally connected on an opposing side (to the side connected to the back wall 116) to a first side of a second shelf panel 138. The second shelf panel 138 includes a plurality of second shelf components 140. The plurality of second shelf components 140 correspond to the plurality of first shelf components 130. Each of the plurality of second shelf components 140 include two frangible tabs 142. The frangible tab 142 is contained fully within the area of the second shelf panel and does not cross any perimeter edges. When the frangible tab 142 is pressed downward, a portion of the tab abuts a portion of a front panel 151 and is connected to the panel by a hinge 145.
Each of the second shelf panels 138 have a vertical front panel 150 and a hinge 152 connected to an object support surface 154. When formed into the shelving display 200, the vertical front panel 150 extends vertically above the shelf support surface 154 and acts as a lip to prevent products from sliding off the shelf support surface 154. The hinge 152 is folded 180° vertically downwardly behind the front panel 150 to form a double thickness vertical wall. Four of the five second shelf components also have two removable chads 156 at opposed lateral edges and are frangibly connected to the blank. Upon assembly of the shelf display 200 the removable chads 156 are torn away to form arcuate shaped 158 edges on a leading edge of the side walls.
The second shelf panel 138 is integrally connected on a second side to a panel that forms the second side wall 114. The second side wall 114 also includes glue areas designated by “X's” 144.
To set up the shelving display 200 from the blank 124, both the first side wall 112 and the positioning panel 126 are folded forward to be at a right angle with respect to the back wall 16. The first shelf panel 128 is then folded toward the first side wall 112, and the thin strip 134 is glued to an interior surface of the first side wall 112. This supports the first shelf panel 128 parallel to the back wall 116 at a distance equal to the width of the positioning panel 126.
The second shelf panel 138 is folded across the first shelf panel 128, and the second side wall 114 is folded back toward the back wall 116. The glue 144 on the second side wall 114 is used to secure the second side wall 114 to an outer surface of the positioning panel 126.
Here the folding sequence of each shelf is completed with two simple steps. First a constructor of the display presses down of the second panel 138 toward the back wall into contact with the first shelf panel 130. This causes the first shelf panel to move downwardly together with the second shelf panel where the flanges 109 contact the deflectable tabs 103. The tabs direct the flanges 109 into slots 107. In the second step, the constructor presses the frangible tabs 142 to force a portion of the tabs into contact with the vertical wall 151. This process is repeated until all of the shelves are formed. During these two steps, the second portion 150b of the front panel is folded downward and behind the first portion 150a into surface contact, or closely adjacent, an inner surface of the first portion 150a to form a double thickness front panel 150. A top of the first portion 150b extends above the support surface 154 and acts as a lip 160.
While the display 100 has four shelves it is contemplated that the display can have from one shelf to 10 shelves, for example. More typically the display will have from two to six shelves.
While the specific embodiments have been illustrated and described, numerous modifications come to mind without significantly departing from the spirit of the invention and the scope of protection is only limited by the scope of the accompanying claims.
The present application is a continuation of U.S. patent application Ser. No. 18/047,857, filed Oct. 19, 2022, which is a continuation of U.S. patent application Ser. No. 17/386,037, filed Jul. 27, 2021, now U.S. Pat. No. 11,517,129, which is a continuation of U.S. patent application Ser. No. 16/942,315, filed Jul. 29, 2020, now U.S. Pat. No. 11,154,145, the contents of which are incorporated herein by reference and made a part hereof.
Number | Date | Country | |
---|---|---|---|
Parent | 18047857 | Oct 2022 | US |
Child | 18473684 | US | |
Parent | 17386037 | Jul 2021 | US |
Child | 18047857 | US | |
Parent | 16942315 | Jul 2020 | US |
Child | 17386037 | US |