Field of the Invention
[0001] The present invention relates to point of sale displays, or point of sale stands,
and more particularly but not exclusively, to foldable constructions for presenting
articles for sale.
Background of the Invention
[0002] There is a widely recognized need for display systems, or stands, which are foldable
to be comfortably carried around, easy to unfold and place in site, large and stable
enough to carry a large number of articles, and that are also inexpensive. Stands
made of wood do not fold easily, stands made of metal are heavy and expensive. Stands
made of plastic materials are unstable and may collapse under excessive weight. It
would therefore be highly advantageous to have, a display system and method devoid
of the above limitations.
Summary of the Invention
[0003] According to one aspect of the present invention there is provided a display system
for storing articles for display, the display system including a board (or sheet)
of multiwall structure of polypropylene material, the board comprising two parallel
vertical folds dividing the board into a back-plane part, a left side part and a right
side part, the side parts being foldable with respect to the back-plane, where the
back-plane part includes a plurality of horizontal slots, and the right side part
and the left side part including a plurality of holes, each hole associated with a
slot of the plurality of slots, a plurality of rods, preferably an aluminum profile,
where each rod is insertable through a hole in the right part and a corresponding
hole in the left part, and a plurality of shelves made of multiwall structure of polypropylene
material, each shelf including at least one flap, where each shelf rests on a rod
and its flaps inserted in corresponding slots in the back plane.
[0004] According to another aspect of the present invention there is provided a display
system for storing articles for display, the display system including: a ladder part
constructed to support weight, an envelop part constructed to provide stability, and
a plurality of shelves constructed for placing articles, the shelves coupled with
the envelop part and with the ladder part to enable folding, where the folding enables
a first folding mode enabling placement of articles on the shelves and a second folding
mode where the display system consumes a volume smaller than the volume of the first
folding mode.
[0005] According to yet another aspect of the present invention there is provided a display
system where the envelop part includes a back part and where the ladder part, the
back part and the shelves form a parallelogram and where the folding affects the parallelogram's
angles.
[0006] According to still another aspect of the present invention there is provided a display
system where the first folding mode separates between the back part and the ladder
part and where the second folding mode bring the back part and the ladder part closer.
[0007] Further according to another aspect of the present invention there is provided a
display system where the ladder part includes a rigid material, and where the envelop
part includes a flexible material.
[0008] Still further according to another aspect of the present invention there is provided
a display system where the ladder part includes a vertical part including a rigid
material, and a horizontal part including a vertically flat material.
[0009] Yet further according to another aspect of the present invention there is provided
a display system where at least one of the ladder part, the envelop part, and the
shelf includes a multiwall structure of polypropylene material.
[0010] Even further according to another aspect of the present invention there is provided
a display system where at least one of the envelop part, and the shelf includes a
plastic sheet.
[0011] Additionally according to another aspect of the present invention there is provided
a display system where the envelop part includes a plurality of slots, and where the
shelves include at least one flap insertable into a slot of the plurality of slots,
and where the flap when inserted into the slot includes an axle about which the shelve
is rotatable relative to the envelop part to enable the folding.
[0012] According to yet another aspect of the present invention there is provided a display
system additionally including a fastener part for fastening the envelop part to the
ladder part.
[0013] According to still another aspect of the present invention there is provided a display
system where the fastener includes at least one of: a rivet, a slotted spring pin,
a bayonet type clamp, and a magnet.
[0014] Further according to another aspect of the present invention there is provided a
display system where the envelop part includes a back part and at least one side part
and where the at least one of the side part is foldable with respect to the back part
at least one of: along the back part, in parallel to the back part, and forming an
angle with the back part.
[0015] Still further according to another aspect of the present invention there is provided
a display system where the envelop part includes a fold between the back part and
the at least one side part and where the fold includes a half-depth cut.
[0016] Yet further according to another aspect of the present invention there is provided
a display system the shelves are constructed to transfer weight of the article to
the horizontal part and where the horizontal part is constructed to transfer the weight
to the vertical part and where the vertical part is constructed to transfer the weight
to the floor.
[0017] Even further according to another aspect of the present invention there is provided
a display system additionally including a connector part constructed to connect at
least two parts from the list consisting of: two vertical parts, a vertical part and
a horizontal part, and a vertical part and the envelope part.
[0018] Additionally according to another aspect of the present invention there is provided
a display system where the connector part is constructed to slide on the vertical
part.
[0019] According to still another aspect of the present invention there is provided a display
system where the connector part includes a dovetail joint.
[0020] According to yet another aspect of the invention, there is provided an apparatus
for storing articles for display the apparatus comprising:
a sheet of multiwall structure of polypropylene material, said sheet comprising two
parallel vertical folds dividing said first sheet into a back-plane part, a left side
part and a right side part, said side parts being foldable with respect to said back-plane,
wherein said back-plane part comprises a plurality of horizontal slots, and wherein
said right side part and said left side part comprise a plurality of holes, each hole
associated with a slot of said plurality of slots;
a plurality of rods, each rod insertable through a hole in said right part and a corresponding
hole in said left part; and
a plurality of shelves comprising multiwall structure of polypropylene material, each
shelf comprising at least one flap; wherein each shelf rests on one of said plurality
of rods and its at least one flap inserted in a corresponding slot of said plurality
of slots.
[0021] Unless otherwise defined, all technical and scientific terms used herein have the
same meaning as commonly understood by one of ordinary skill in the art to which this
invention belongs. The materials, methods, and examples provided herein are illustrative
only and not intended to be limiting. Implementation of the method and system of the
present invention involves performing or completing certain selected tasks or steps
manually, automatically, or a combination thereof.
Brief Description of the Drawings
[0022] The invention is herein described, by way of example only, with reference to the
accompanying drawings. With specific reference now to the drawings in detail, it is
stressed that the particulars shown are by way of example and for purposes of illustrative
discussion of the preferred embodiments of the present invention only, and are presented
in order to provide what is believed to be the most useful and readily understood
description of the principles and conceptual aspects of the invention. In this regard,
no attempt is made to show structural details of the invention in more detail than
is necessary for a fundamental understanding of the invention, the description taken
with the drawings making apparent to those skilled in the art how the several forms
of the invention may be embodied in practice.
[0023] In the drawings:
Fig. 1A is a simplified illustration of a front view of a modular folding stand -
full beam configuration;
Fig. 1B is a simplified illustration of a side view of the modular folding stand;
Fig. 1C is a simplified illustration of a top view of the modular folding stand;
Fig. 1D is a simplified illustration of an isometric view of the modular folding stand;
Fig. 2A is a simplified illustration of a multiwall board in a flat mode showing a
half-depth cut across the tunnels;
Fig. 2B is a simplified illustration of the multiwall board of Fig. 2A in a folded
mode;
Fig. 3A is a simplified illustration of a multiwall board in a flat mode showing a
half-depth cut across the tunnels;
Fig. 3B is a simplified illustration of the multiwall board of Fig. 3A in a folded
mode;
Fig. 4 is a simplified illustration of a back base part of the modular folding stand;
Fig. 5 is a simplified illustration of a floor base part of the modular folding stand;
Fig. 6 is a simplified illustration of a base shelf part of the modular folding stand;
Fig. 7 is a simplified illustration of a shelf part of the modular folding stand;
Fig. 8 is a simplified illustration of a base rod part of the modular folding stand;
Fig. 9 is a simplified illustration of a header part of the modular folding stand;
Fig. 10 is a simplified illustration of a stopper part of the modular folding stand;
Fig. 11A is a simplified illustration of the back base in open mode with a vertical
half-cut in the center;
Fig. 11B is a simplified illustration of the back base in closed mode;
Fig. 12 is a simplified illustration of the back base with the folding half-cuts across
the fiber direction;
Fig. 13 is a simplified illustration of the back base with the folding half-cuts along
the fiber direction;
Fig. 14A is a simplified illustration of the floor base in closed mode;
Fig. 14B is a simplified illustration of the floor base in opened mode;
Fig. 15 is a simplified illustration of the floor base assembled with the back-base
in opened mode;
Fig. 16A is a simplified illustration of a full view of the assembled back-base and
floor base in opened mode; and
Fig. 16B is a simplified illustration of a full view of the back-base and floor base
assembled and folded;
Fig. 17A is a simplified illustration of a front view of a modular vertical folding
stand;
Fig. 17B is a simplified illustration of a side view of the modular vertical folding
stand;
Fig. 17C is a simplified illustration of a top view of the modular vertical folding
stand;
Fig. 17D is a simplified illustration of an isometric view of the modular vertical
folding stand;
Fig. 18A is a simplified illustration of a back base part of the modular vertical
folding stand in flat-open mode;
Fig. 18B is a simplified illustration of the back base part in folded mode, with the
side parts folded;
Fig. 19 is a simplified illustration of a center frame part of the modular vertical
folding stand;
Fig. 20 is a simplified illustration of a base floor part of the modular vertical
folding stand;
Fig. 21 is a simplified illustration of a shelf part of the modular vertical folding
stand;
Fig. 22A is a simplified illustration of the modular vertical folding stand assembled
in a flat-open mode, with the sides flat-folded and the shelves folded down;
Fig. 22B is a simplified illustration of the modular vertical folding stand 11assembled
in a folded-down mode, with the sides folded in and the shelves folded down;
Fig. 22C is a simplified illustration of the modular vertical folding stand 11fully
assembled mode, with the sides folded in and the shelves folded upright;
Fig. 23A is a simplified illustration of a front view of a modular adjustable vertical
folding stand;
Fig. 23B is a simplified illustration of a side view of the modular adjustable vertical
folding stand;
Fig. 23C is a simplified illustration of a top view of the modular adjustable vertical
folding stand;
Fig. 23D is a simplified illustration of an isometric view of the modular adjustable
vertical folding stand;
Fig. 24 is a simplified illustration of a back base part of the modular adjustable
vertical folding stand;
Fig. 25 is a simplified illustration of a shelf part of the modular adjustable vertical
folding stand;
Fig. 26 is a simplified illustration of a base floor part of the modular adjustable
vertical folding stand;
Fig. 27A and 27B are simplified illustrations of a profile part of the modular adjustable
vertical folding stand;
Fig. 28A, 28B and 28C are simplified illustrations of a connector part of the modular
adjustable vertical folding stand;
Fig. 29 is a simplified illustration of a connector and a fastener;
Fig. 30 is a simplified illustration of the connector with the fastener assembled
together;
Fig. 31 is a simplified illustration of the connector, two profiles and the fastener;
Fig. 32 is simplified illustrations of an assembled ladder part 1 including connectors,
profiles, and fasteners;
Fig. 33 is a simplified illustration of a side part connected to the ladder part with
fasteners;
Fig. 34 is a detail of Fig. 33 showing a part of the side part and a fastener;
Figs. 35A, 35B, and 35C, are simplified illustrations of a continuously adjustable
connector;
Fig. 36 is a simplified illustration of the continuously adjustable connector with
profiles and a fastener;
Figs. 37 and 38 are simplified illustrations of the continuously adjustable connector
assembled with profiles;
Fig. 39 is a simplified illustration of a ladder made of connectors and profiles;
Fig. 40 is a simplified illustration of shelves 22 and base floor 23 mounted on a
ladder;
Fig. 41 is a simplified illustration of the side of the back base part connected to
the ladder;
Fig. 42 is a simplified illustration of a detail of Fig. 41, showing a fastener connecting
the side to the ladder;
Figs. 43A and 43B are simplified illustrations of a reverse-T profile;
Figs. 44A, 44B and 44C are simplified illustrations of different views of a continuously
adjustable connector compatible with the profile of Figs. 43A and 43B;
Fig. 45 is a simplified illustration of a continuously adjustable connector, the profiles
and a fastener;
Fig. 46, Fig. 47A and Fig. 47B are simplified illustrations of exemplary assemblies
of the continuously adjustable connector and profiles;
Fig. 48 is a simplified illustration of a ladder made of continuously adjustable connectors
and profiles;
Fig. 49 is a simplified illustration of shelves and base floor mounted on the ladder
of Fig. 48;
Fig. 50A is a simplified illustration of a front view of the fully folding stand;
Fig. 50B is a simplified illustration of a side view of the fully folding stand;
Fig. 50C is a simplified illustration of a top view of the fully folding stand;
Fig. 50D is a simplified illustration of an isometric view of the fully folding stand;
Fig. 51 is a simplified illustrations of a base back part of a fully folding stand;
Fig. 52 is a simplified illustrations of a beam part of the fully folding stand;
Fig. 53 is a simplified illustrations of a floor base part of the fully folding stand;
Fig. 54 is a simplified illustrations of a base shelf part of the fully folding stand;
Fig. 55 is a simplified illustrations of a shelf part of the fully folding stand;
Fig. 56 is a simplified illustrations of a profile part of the fully folding stand;
Fig. 57 is a simplified illustrations of a header part of the fully folding stand;
Fig. 58 is a simplified illustrations of a header support part of the fully folding
stand;
Fig. 59 is a simplified illustrations of a shelf cover part of the fully folding stand;
Fig. 60 is a simplified illustrations of a stand handle part of the fully folding
stand;
Fig. 61 is a simplified illustrations of the back part 37, the beam part 38, and the
base part 39 assembled and positioned in a flat open folding configuration;
Fig. 62 is a simplified illustrations of the back part 37, the beam part 38, and the
base part 39 assembled and positioned in a back-folded configuration;
Fig. 63 is a simplified illustrations of the back part 37, the beam part 38, and the
base part 39 assembled in a positioning configuration;
Fig. 64A and Fig. 64B are simplified illustrations of two folding configurations of
the back part 37;
Figs. 65A, 65B, and 65C are simplified illustrations of three folding position of
the assembled back part 37 and beam part 38;
Fig. 66A is a simplified illustration of a back view of the envelope of the display
system in the closed-back mode with the side panels folded behind the back panel;
Fig. 66B is a simplified illustration of a front view of the envelope in the flat-open
mode with the side panels opened in-line with the back panel;
Fig. 66C is a simplified illustration of a front view of the envelope in the open
(positioned) mode with the side panels at right-angles with the back panel (front-fold
mode);
Fig. 67 is a simplified illustration of a shelves of the display system showing their
flaps;
Fig. 68 is a simplified illustration of a ladder part of the display system showing
vertical parts, horizontal pats and joints (connectors);
Fig. 69A is a simplified illustration of the display system assembled and folded to
minimize volume;
Fig. 69B is a simplified illustration of the display system with the envelop in the
fold-back mode and the ladder and shelves folded down to position the display system
in place;
Fig. 69C is a simplified illustration of the display system with the envelop in the
flat open mode and the ladder and shelves folded down;
Fig. 69D is a simplified illustration of the display system assembled and positioned
in place with the envelop in the front-fold mode;
Fig. 70A is a simplified illustration of the display system in a fold-down mode;
Fig. 70B is a simplified illustration of the display system in a fold-up mode;
Fig. 70C is a simplified illustration of the display system in the open (positioned)
mode; and
Fig. 71 is a simplified illustration of shelves positioned on a ladder.
Description of the Preferred Embodiments
[0024] The principles and operation of a display system according to the present invention
may be better understood with reference to the drawings and accompanying description.
[0025] Before explaining at least one embodiment of the invention in detail, it is to be
understood that the invention is not limited in its application to the details of
construction and the arrangement of the components set forth in the following description
or illustrated in the drawings. The invention is capable of other embodiments or of
being practiced or carried out in various ways. In addition, it is to be understood
that the phraseology and terminology employed herein is for the purpose of description
and should not be regarded as limiting.
[0026] In this document the term "display system" refers to a structure that includes shelves
for placing articles for display and/or for sale and/or for storage. This "display
system" is also called "stand", "rack", "point of sale display", "point of sale stand",
etc.
[0027] The present invention includes a foldable display system preferably made of plastic
material, preferably corrugated plastic, which may also be referred to as twinwall
plastic, corrugated fiberboard, multiwall structure, extruded plastic sheet, etc.
or combinations of these terms. The plastic material used is preferably in the form
of a board, or a plane or a sheet having thickness of few millimeters. The plastic
material is preferably polypropylene, or high impact polypropylene resin, though other
materials are possible. In this document this material in preferably called multiwall
board, however, other terms and their combinations are possible. The multiwall board
preferably includes two (or more) sheets (or surfaces) separated by a structure of
spacers forming a structure of long tunnels or bores. The direction of the tunnels
is named herein fiber direction.
[0028] Reference is now made to Figs. 1A, 1B, 1C and 1D, which are simplified illustrations
of several views of modular folding stand 10 according to a preferred embodiment of
the present invention.
[0029] Fig. 1A is a simplified illustration of a front view of a modular folding stand 10.
[0030] Fig. 1B is a simplified illustration of a side view of the modular folding stand
10.
[0031] Fig. 1C is a simplified illustration of a top view of a modular folding stand 10.
[0032] Fig. 1D is a simplified illustration of an isometric view of a modular folding stand
10.
[0033] The modular folding stand 10 is a display system as described above. The modular
folding stand 10 is preferably made of, at least partly, multiwall board as described
above. The modular folding stand 10 has two basic configurations or modes: a closed
mode and an open mode. Optionally, the open mode may be called assembled mode or positioning
mode while the closed mode may be called flat mode. Figs. 1A - 1d depict the modular
folding stand 10 in the open or assembled mode.
[0034] The various configurations of the modular folding stand 10 are made possible by half-depth
cuts into the material. Such half-depth cuts enable the folding of the multiwall board.
There are two basic types of half-depth cuts: half-depth cuts along the fiber direction
(such as along a tunnel) and half-depth cuts across the fiber direction.
[0035] Reference is now made to Figs. 2A and 2B, which are simplified illustrations of two
views of a multiwall board with a half-depth cut across fiber direction, as used in
the modular folding stand 10 according to a preferred embodiment of the present invention.
[0036] Fig. 2A is a view of the multiwall board in a flat mode showing the half-depth cut
across the tunnels while Fig. 2B is a view of the multiwall board in a folded mode.
[0037] Reference is now made to Figs. 3A and 3B, which are simplified illustrations of two
views of a multiwall board with a half-depth cut along fiber direction, as used in
the modular folding stand 10 according to a preferred embodiment of the present invention.
[0038] Fig. 3A is a view of the multiwall board in a flat mode showing the half-depth cut
along a tunnel while Fig. 3B is a view of the multiwall board in a folded mode.
[0039] Reference is now made to Figs. 4, 5, 6, 7, 8, 9, and 10, which are simplified illustrations
of elements of the modular folding stand 10 according to a preferred embodiment of
the present invention.
[0040] Fig. 4 shows a back base in open mode.
[0041] Fig. 5 shows a floor base in open mode.
[0042] Fig. 6 shows a base shelf in open mode.
[0043] Fig. 7 shows a shelf, of which the modular folding stand 10 preferably includes four
units, however, any other number is possible.
[0044] Fig. 8 shows a rod, of which the modular folding stand 10 preferably includes four
units as there are shelves, however, any other number is possible. The rod is preferably
an aluminum profile.
[0045] Fig. 9 shows a header.
[0046] Fig. 10 shows a stopper, of which the modular folding stand 10 preferably includes
four units as there are shelves, however, any other number is possible.
[0047] Typically but preferably, however as a non-limiting example, modular folding stand
10 includes the following elements:
Element |
Quantity |
Back Base |
1 |
Floor Base |
1 |
Base Shelf |
1 |
Shelf |
4 |
Aluminum Profile |
4 |
Stopper |
4 |
Header |
1 |
[0048] Reference is now made to Figs. 11A, 11B, 12 and 13, which are simplified illustration
of the back base of Fig. 4 according to a preferred embodiment of the present invention.
[0049] Fig. 11A shows the back base in open mode with a vertical half-cut in the center.
[0050] Fig. 11B shows the back base in closed mode.
[0051] Fig. 12 shows the back base with horizontal fiber direction and the folding half-cuts
across the fiber direction.
[0052] Fig. 13 shows the back base with vertical fiber direction and the folding half-cuts
along the fiber direction.
[0053] Reference is now made to Figs. 14A, 14B, 15, 16A, and 16B which are simplified illustrations
of folding details of the modular folding stand 10 according to a preferred embodiment
of the present invention.
[0054] Fig. 14A shows the floor base in closed mode.
[0055] Fig. 14B shows the floor base in opened mode.
[0056] Fig. 15 shows the floor base assembled with the back-base in opened mode.
[0057] Fig. 16A is a full view of the assembled back-base and floor base in opened mode.
[0058] Fig. 16B is a full view of the back-base and floor base assembled and folded.
[0059] Reference is now made to Figs. 17A, 17B, 17C and 17D, which are simplified illustrations
of several views of a modular vertical folding stand 11 according to a preferred embodiment
of the present invention.
[0060] Fig. 17A is a simplified illustration of a front view of the modular vertical folding
stand 11.
[0061] Fig. 17B is a simplified illustration of a side view of the modular vertical folding
stand 11.
[0062] Fig. 17C is a simplified illustration of a top view of the modular vertical folding
stand 11.
[0063] Fig. 17D is a simplified illustration of an isometric view of the modular vertical
folding stand 11.
[0064] The modular vertical folding stand 11 is a display system as described above. The
modular vertical folding stand 11 is preferably made, at least partly, from multiwall
board as described above. Figs. 17A - 17D depict the modular vertical folding stand
11 in fully assembled mode.
[0065] Various modes of certain elements of the modular vertical folding stand 11 are made
possible by half-depth cuts into the material as described above with reference to
Figs. 2A and 2B. Such half-depth cuts enable the folding of the multiwall board. As
described above, there are two basic types of half-depth cuts: half-depth cuts along
the fiber direction (such as along a tunnel) and half-depth cuts across the fiber
direction.
[0066] Reference is now made to Figs. 18A, 18B, 19, 20, and 21, which are simplified illustrations
of elements of the modular vertical folding stand 11 according to a preferred embodiment
of the present invention.
[0067] Fig. 18A shows a back base part 12 in flat-open mode. Fig. 18A also shows the fiber
direction and two half-depth cuts 13 along the fiber direction enabling the folding
of the side parts 14. Fig. 18A also shows shelves slots 15. Fig. 18B shows the back
base part in folded mode, with the side parts folded preferably in 90 degrees.
[0068] Fig. 19 shows a center frame part 16.
[0069] Fig. 20 shows a base floor part 17.
[0070] Fig. 21 shows a shelf part 18.
[0071] Reference is now made to Figs. 22A, 22B and 22C, which are simplified illustrations
of the modular vertical folding stand 11 in various folding modes according to a preferred
embodiment of the present invention.
[0072] Fig. 22A shows the modular vertical folding stand 11 assembled in a flat-open mode,
with the sides flat-folded and the shelves folded down.
[0073] Fig. 22B shows the modular vertical folding stand 11 assembled in a folded-down (closed)
mode, with the sides folded in and the shelves folded down.
[0074] Fig. 22C shows the modular vertical folding stand 11 fully assembled mode, with the
sides folded in and the shelves folded up.
[0075] It is appreciated that Figs. 18A - 22C may not depict their respective elements,
or components, or parts according to the same scale.
[0076] As a non-limiting example, the modular folding stand 10 is typically but preferably
made of the following components:
Component |
Quantity |
Back Base |
1 |
Center Frame |
1 |
Floor Base |
1 |
Shelf |
3-4 |
[0077] Reference is now made to Figs. 23A, 23B, 23C and 23D, which are simplified illustrations
of several views of a modular adjustable vertical folding stand 19 according to a
preferred embodiment of the present invention.
[0078] Fig. 23A is a simplified illustration of a front view of the modular adjustable vertical
folding stand 19.
[0079] Fig. 23B is a simplified illustration of a side view of the modular adjustable vertical
folding stand 19.
[0080] Fig. 23C is a simplified illustration of a top view of the modular adjustable vertical
folding stand 19.
[0081] Fig. 23D is a simplified illustration of an isometric view of the modular adjustable
vertical folding stand 19.
[0082] The modular adjustable vertical folding stand 19 is a display system as described
above. The modular adjustable vertical folding stand 19 is preferably made, at least
partly, from multiwall board as described above. Figs. 23A - 23D depict the modular
adjustable vertical folding stand 19 in fully assembled mode.
[0083] Various modes of certain elements of the modular adjustable vertical folding stand
19 are made possible by half-depth cuts into the material as described above with
reference to Figs. 2A and 2B. Such half-depth cuts enable the folding of the multiwall
board. As described above, there are two basic types of half-depth cuts: half-depth
cuts along the fiber direction (such as along a tunnel) and half-depth cuts across
the fiber direction.
[0084] Reference is now made to Figs. 24, 25, 26, 27A, 27B, 28A, 28B and 28C, which are
simplified illustrations of elements of the modular adjustable vertical folding stand
19 according to a preferred embodiment of the present invention.
[0085] Fig. 24 shows a back base part 20 of the modular adjustable vertical folding stand
19 with side parts 21 folded forward. The back base part 20 is preferably made of
a board of multiwall structure of polypropylene material.
[0086] Fig. 25 shows a shelf part 22 of the modular adjustable vertical folding stand 19.
The shelf part 22 is preferably made of a board of multiwall structure of polypropylene
material.
[0087] Fig. 26 shows a base floor part 23 of the modular adjustable vertical folding stand
19. The base floor part 23 is preferably made of a board of multiwall structure of
polypropylene material.
[0088] Figs. 27A and 27B are two illustrations of a profile part 24 of the modular adjustable
vertical folding stand 19, preferably made of plastic material, preferably solid plastic.
[0089] Fig. 28A, 28B and 28C are three illustrations of a connector part 25 of the modular
adjustable vertical folding stand 19, preferably made of plastic material, preferably
solid plastic.
[0090] Reference is now made to Figs. 29, 30, 31, 32, 33, and 34, which are simplified illustrations
of steps of the assembly of the modular adjustable vertical folding stand 19 according
to a preferred embodiment of the present invention.
[0091] Fig. 29 shows a connector 25 and a fastener 26.
[0092] Fig. 30 shows the connector 25 with the fastener 26 assembled together.
[0093] Fig. 31 shows the connector 25, two profiles 24 and the fastener 26. As shown in
Fig. 31, profile 24 is a tube made of a plastic material. A profile 24 is preferably
square, but may have other shapes. A connector 25 enables the assembly of two or more
profiles 24. The fastener 26 enables the fastening of a side part 21 to the connector
25.
[0094] Fig. 32 shows an assembled ladder part 27 including connectors 25, profiles 24 and
fasteners 26. By using profiles 24 of various lengths it is possible to assemble a
ladder of various dimensions and shapes. For example, adjusting the width of the ladder,
adjusting the height between the shelves, adjusting the number of shelves, adjusting
overall height, etc.
[0095] Fig. 33 shows a side part 21 connected to the ladder part with fasteners 26.
[0096] Fig. 34 is a detail of Fig. 33 showing the side part 21 and a fastener 26.
[0097] As a non-limiting example, the modular adjustable folding stand 19 is typically but
preferably made of the following components:
Component |
Quantity |
Back Base |
1 |
Floor Base |
1 |
Shelf |
4 |
Plastic profile |
14 |
Plastic profile connector |
8 |
[0098] The modular adjustable folding stand 19, when assembled, such as the modular folding
stand 10, has folding capabilities as shown and described with reference to Figs.
22A, 22B and 22C. Particularly, The modular adjustable folding stand 19, has upward
and downward folding motion as depicted in Figs. 22B and 22C.
[0099] Reference is now made to Figs. 35A, 35B, and 35C, which are simplified illustrations
of a continuously adjustable connector 28, according to a preferred embodiment of
the present invention.
[0100] Reference is now made to Figs. 36, 37, and 38, which are simplified illustrations
of the continuously adjustable connector 28 and profiles 29, according to a preferred
embodiment of the present invention.
[0101] The continuously adjustable connector 28 and the profiles 29 are preferably made
of plastic material, preferably solid plastic. As shown in Figs. 37 and 38, the continuously
adjustable connector 28 may slide over the profile 29 continuously.
[0102] Fig. 36 also shows a fastener 30 for fastening the continuously adjustable connector
28 to a board such as a board made of multiwall structure of polypropylene material,
for example, the back base part 20 shown and described with reference to Fig. 24.
[0103] Reference is now made to Fig. 39, which is a simplified illustration of a ladder
31, according to a preferred embodiment of the present invention. Ladder 31 is made
of continuously adjustable connectors 28 and profiles 29 as shown in Fig. 39.
[0104] Reference is now made to Fig. 40, which is a simplified illustration of shelves 22
and base floor 23 mounted on a ladder 31, according to a preferred embodiment of the
present invention.
[0105] Reference is now made to Fig. 41, which is a simplified illustration of the side
21 of the back base part 20 connected to the ladder 31, and to Fig. 42, which is a
simplified illustration of a detail of Fig. 41, showing the side 21 connected to a
connector 28 of the ladder 31 using a fastener 30, according to a preferred embodiment
of the present invention.
[0106] The modular adjustable folding stand assembled using the continuously adjustable
connector 28 has folding capabilities as shown and described with reference to Figs.
22A, 22B and 22C. Particularly, This modular adjustable folding stand, has upward
and downward folding motion as depicted in Figs. 22B and 22C. As a non-limiting example,
the modular adjustable folding stand is typically but preferably made of the following
components:
Component |
Quantity |
Back Base |
1 |
Floor Base |
1 |
Shelf |
4 |
Plastic profile |
14 |
Plastic profile connector |
8 |
[0107] Reference is now made to Figs. 43A, and 43B, which are simplified illustrations of
a reverse-T profile 32, according to a preferred embodiment of the present invention.
[0108] Reference is now made to Figs. 44A, 44B and 44C, which are simplified illustrations
of different views of a continuously adjustable connector 33 compatible with profile
32, according to a preferred embodiment of the present invention.
[0109] Reference is now made to Figs. 45, 46, 47A and 47B, which are simplified illustrations
of the continuously adjustable connector 33 and profiles 32, according to a preferred
embodiment of the present invention.
[0110] The continuously adjustable connector 33 and the profiles 32 are preferably made
of plastic material, preferably solid plastic. As shown in Figs. 46, 47A and 47B,
the continuously adjustable connector 33 may slide over the profile 32 continuously.
[0111] Fig. 45 also shows a fastener 34 for fastening the continuously adjustable connector
28 to a board such as a board made of multiwall structure of polypropylene material,
for example, the back base part 20 shown and described with reference to Fig. 24.
[0112] Reference is now made to Fig. 48, which is a simplified illustration of a ladder
35, according to a preferred embodiment of the present invention. Ladder 35 is made
of continuously adjustable connectors 33 and profiles 32 as shown in Fig. 48.
[0113] Reference is now made to Fig. 49, which is a simplified illustration of shelves 22
and base floor 23 mounted on a ladder 31, according to a preferred embodiment of the
present invention.
[0114] The modular adjustable folding stand assembled using the continuously adjustable
connector 28 has folding capabilities as shown and described with reference to Figs.
22A, 22B and 22C. Particularly, This modular adjustable folding stand, has upward
and downward folding motion as depicted in Figs. 22B and 22C. As a non-limiting example,
the modular adjustable folding stand is typically but preferably made of the following
components:
Component |
Quantity |
Back Base |
1 |
Floor Base |
1 |
Shelf |
4 |
Plastic profile |
14 |
Plastic profile connector |
8 |
[0115] Reference is now made to Figs. 50A, 50B, 50C and 50D, which are simplified illustrations
of several views of a fully folding stand 36 according to a preferred embodiment of
the present invention.
[0116] Fig. 50A is a simplified illustration of a front view of the fully folding stand
36.
[0117] Fig. 50B is a simplified illustration of a side view of the fully folding stand 36.
[0118] Fig. 50C is a simplified illustration of a top view of the fully folding stand 36.
[0119] Fig. 50D is a simplified illustration of an isometric view of the fully folding stand
36.
[0120] The fully folding stand 36 is a display system as described above. The fully folding
stand 36 is preferably made, at least partly, from multiwall board as described above.
Figs. 50A - 50D depict the fully folding stand 36 in assembled mode.
[0121] Various modes of certain elements of the fully folding stand 36 are made possible
by half-depth cuts into the material as described above with reference to Figs. 2A
and 2B. Such half-depth cuts enable the folding of the multiwall board. As described
above, there are two basic types of half-depth cuts: half-depth cuts along the fiber
direction (such as along a tunnel) and half-depth cuts across the fiber direction.
[0122] Reference is now made to Figs. 51, 52, 53, 54, 55, 56, 57, 58, 59, and 60, which
are simplified illustrations of elements of the fully folding stand 36, according
to a preferred embodiment of the present invention.
[0123] Fig. 51 is a simplified illustrations of a back part 37 of the fully folding stand
36.
[0124] Fig. 52 is a simplified illustrations of a beam part 38 of the fully folding stand
36.
[0125] Fig. 53 is a simplified illustrations of a base part 39 of the fully folding stand
36.
[0126] Fig. 54 is a simplified illustrations of a base shelf part 40 of the fully folding
stand 36.
[0127] Fig. 55 is a simplified illustrations of a shelf part 41 of the fully folding stand
36.
[0128] Fig. 56 is a simplified illustrations of a profile part 42 of the fully folding stand
36.
[0129] Fig. 57 is a simplified illustrations of a header part 43 of the fully folding stand
36.
[0130] Fig. 58 is a simplified illustrations of a header support part 44 of the fully folding
stand 36.
[0131] Fig. 59 is a simplified illustrations of a shelf cover part 45 of the fully folding
stand 36.
[0132] Fig. 60 is a simplified illustrations of a stand handle part 46 of the fully folding
stand 36.
[0133] Preferably, parts 37 to 46, with the exception of the profile 42, are made of multiwall
structure of polypropylene material. Profile 42 is preferably made from aluminum.
[0134] Reference is now made to Figs. 61, 62, and 63, which are a simplified illustrations
of three configurations of the back part 37, the beam part 38, and the base part 39
assembled together, according to a preferred embodiment of the present invention.
[0135] The three configuration shown by Figs. 61-63 are three folding positions. Fig. 61
shows the assembled parts 37, 38, and 39 in a flat open folding configuration (for
example for storage or transportation). Fig. 62 shows the assembled parts 37, 38,
and 39 in a back-folded configuration (for example for storage or transportation).
Fig. 63 shows the assembled parts 37, 38, and 39 in a positioning configuration (for
example for display). Figs. 61-63 also show the preferred fiber direction.
[0136] Reference is now made to Fig. 64A and Fig. 64B, which are simplified illustrations
of two folding configurations of the back part 37 according to a preferred embodiment
of the present invention. Fig. 64A show the back part 37 in open configuration while
Fig. 64B show the back part 37 in closed or folded configuration. Arrows in Fig. 64A
and 64B show the directions of the folding motion.
[0137] Reference is now made to Figs. 65A, 65B, and 65C, which are simplified illustrations
of three folding position of the assembled back part 37 and beam part 38, according
to a preferred embodiment of the present invention.
[0138] Fig. 65A shows the beam part 38 folded behind the back part 37. Fig. 65B shows the
beam part 38 folded in front of the back part 37, and Fig. 65C shows the beam part
38 folded in a right angle to the back part 37. Arrows in Figs. 65A and 65B show the
folding motion while numeral 47 indicates the pivoting axle.
[0139] The modular adjustable folding stand 36 assembled has folding capabilities as shown
and described above. As a non-limiting example, the modular adjustable folding stand
is typically but preferably made of the following components:
Component |
Quantity |
Back Base |
1 |
Back handle |
1 |
Beam |
2 |
Floor Base |
1 |
Shelf |
3 |
Shelf cover |
3 |
Aluminum profile |
3 |
Header support |
4 |
Header |
1 |
[0140] As shown and described above, the purpose of the present invention is a display system,
which is a device for storing one or more articles for display. The device is usually
used as a point of sale display, or point of sale stand. More particularly, but not
exclusively, the purpose of the present invention is provide a foldable construction
for presenting articles for sale. A display system according to the present invention
is foldable to be comfortably carried around, easy to unfold and place in site, and
large and stable enough to carry a large number of articles.
[0141] Preferably, a display system according to the present invention includes the following
main parts: a ladder part, an envelop part, and one or more shelves. Additionally
and optionally the display system may include one or more fastener parts, one or more
support parts, and one or more accessory parts.
[0142] The ladder part preferably provides for carrying the weight of the articles presented
The ladder part is preferably produced from a rigid material, preferably from metal
or plastic material, preferably in the shape of a ladder constructed from vertical
parts, horizontal parts and joints (connectors). The vertical and horizontal parts
are preferably in the form of tubes that may have round or rectangular shape (cut)
or any other type of profile (such as element 32). The tubes may have different lengths
and the joints (connectors) enable the constructions of ladder parts of different
heights and widths. However, ladder parts can be made from other materials such as
multiwall sheets, preferably using support parts.
[0143] Several examples of ladder parts are shown and described above with reference to
element 16 (of Figs. 19 - 22C), element 27 (of Fig. 32), element 31 (of Figs. 39 -
41), and element 35 (of Figs. 48 - 49). Ladder part (center frame) 16 is preferably
made of multiwall polypropylene material. Ladder parts 27, 31 and 35 are made of plastic
tubes 24, 29, and 32, and joints (connectors) 25, 28, 33. Center frame part 16 is
an example of a ladder part made from multiwall polypropylene material.
[0144] The purpose of the ladder part is to carry the weight of the shelves (and the articles
the store) to the floor. Preferably, the envelop part does not carry weight.
[0145] The envelop part provides the display system with stability, decorative value, and
area for advertising the articles presented. The envelop part is preferably produced
from light, flat and foldable material, preferably from plastic sheet, such as multiwall
polypropylene board as described above. Easy folding of the envelop part is preferably
provided using half-depth cuts through the multiwall structure as described above
with reference to Figs. 2A, 2B, 3A, and 3B. Since the ladder part has two legs it
is inherently unstable. The envelope part provides stability by eliminating the titling
of the ladder part by providing at least one more contact area with the floor. Preferably
the contact area with the floor is large enough to eliminate excessive pressure on
any part of the envelop part so that the envelop part, which is relatively thin and
flexible, does not collapse.
[0146] Several examples of envelop parts are shown and described above with reference to
Fig. 4, Figs. 11A and 11B, element 12 (of Figs. 18A, 18B and 22A - 22C), element 20
(of Fig. 24), element 31 (of Figs. 39 - 41), element 35 (of Figs. 48 - 49) and elements
37 and 38 (of Figs. 61 - 65C).
[0147] The envelop part is preferably constructed of a back base part (or back part) and
two beam parts (or side parts). Preferably, the beam or side parts are attached to
the ladder part with fasteners. Preferably, the back parts include slots to accommodate
flap parts of the shelves.
[0148] Each of the shelf parts preferably rests on a horizontal part of the ladder part
and is balanced by the envelop, preferably by inserting a flap part of the shelf into
a slot provided in the back base part of the envelop. Preferably, the ladder part
is positioned so that the horizontal part supports the shelf part at an optimal point
to avoid collapsing of the shelf or envelop parts. Such optimal position may be at
the middle of the shelf part. Several examples of shelf parts are shown and described
above with reference to element 18 (of Figs. 21-22C), and element 22 (of Figs. 25,
40 and 49).
[0149] Several examples of joint (connector) parts are shown and described above with reference
to element 25 (of Figs. 30-32), element 28 (of Figs. 30-39), and element 33 (of Figs.
44A-48). Joint parts connect horizontal and vertical parts to form ladder parts. Joint
parts preferably also provide for fasteners, preferably to fasten the envelop part
to the ladder part.
[0150] Several examples of fastener parts are shown and described above with reference to
element 26 (of Figs. 30-33), element 30 (of Figs. 36 and 42), and element 34 (of Fig.
45).
[0151] Examples of a support part are provided by the rod part of Fig. 8 as well as element
42 of Fig. 56. These support parts support a shelf part by conveying the weight to
the envelop part.
[0152] Several examples of accessory parts such as a base part, a head part, etc. are shown
and described above with reference to the elements of Figs. 5-7, 9, 10, 14A and 14B,
element 17 of Fig. 20, elements 39, 40, and 43 - 46 of Figs. 53, 54 and 57 - 60, respectively
as well as element 39 of Figs. 61 - 64B.
[0153] Reference is now made to Figs. 66A, 66B, 66C, 67, 68, 69A, 69B, 69B, 69C, and 69D,
which are a simplified illustrations of a display system 48 according to a preferred
embodiment of the present invention.
[0154] Fig. 66A shows a back view of the envelope 49 of the display system 48 in the closed-back
mode with the side panels 50 folded behind the back panel 51.
[0155] Fig. 66B shows a front view of the envelope 49 in the flat-open mode with the side
panels 50 opened in-line with the back panel 51. Fig. 66B also shows slots 52.
[0156] Fig. 66C shows a front view of the envelope 49 in the open (positioned) mode with
the side panels 50 at right-angles with the back panel 51 (front-fold mode).
[0157] Fig. 67 shows a shelves 53 of the display system 50 with flaps 54.
[0158] Fig. 68 shows a ladder part 55 of the display system 50 with vertical parts 56, horizontal
pats 57 and joints (connectors) 58.
[0159] Fig. 69A shows the display system 50 assembled with the envelope part 49, the shelves
53, and the ladder part 55, and folded closed in with the envelop in the fold-back
mode and the ladder and shelves folded up to minimize the volume consumed by the display
system 50. In this mode it is convenient and economical to store the display system
50 or to carry it around. It is appreciated that the ladder and shelves can also be
folded down to preserve space and that the envelop can be in the flat-open mode.
[0160] Fig. 69B shows the display system 50 with the envelop in the fold-back mode and the
ladder and shelves folded down to position the display system 50 in place.
[0161] Fig. 69C shows the display system 50 with the envelop in the flat open mode and the
ladder and shelves folded down.
[0162] Fig. 69D shows the display system 50 assembled and positioned in place with the envelop
in the front-fold mode and preferably connected to the ladder part with fasteners
(not shown).
[0163] It is therefore appreciated that the display system 50 is preferably constructed
in a manner that enables the side parts (beam parts) to fold back and forth with relation
to the back part. The beam parts may be folded along the back part, or behind the
back part, to provide a flat surface. This closed mode (configuration) preferably
consumes minimal volume, is easy to carry around, to store and to stack, as shown
in Fig. 69A. The beam parts may also be folded in right angle to the back part, or
a similar angle. This open (positioned) mode (configuration) preferably enables the
display system to be positioned vertically, that provides stability to the display
system, and supports the shelves horizontally, as shown in Fig. 69D.
[0164] Furthermore, the display system 50 is preferably constructed in a manner that enables
folding the system into the closed mode where the ladder part and the shelves folds
upwards (as shown in Fig. 69A) or downwards, to reduce the volume consumed.
[0165] Reference is now made to Figs. 70A, 70B, and 70B, which are simplified illustration
of side views of the display system 50 in different folding modes according to a preferred
embodiment of the present invention.
[0166] Fig. 70A shows the display system 50 in a fold-down mode.
[0167] Fig. 70B shows the display system 50 in a fold-up mode.
[0168] Fig. 70C shows the display system 50 in the open (positioned) mode (but with the
side removed for clarity).
[0169] Fig. 70A-70C show a virtual parallelogram 59, and a cut 60 of a virtual box representing
the volume consumed by the display system 50 in each mode.
[0170] Thus the ladder part, the back part and the shelves form together parallelogram 59,
which changes between the closed folding mode (for storing and carrying) and the open
folding mode (for positioning) affecting the parallelogram's angles.
[0171] It is therefore appreciated that the shelves are coupled with the envelop part and
with the ladder part to enable folding, and that the folding enables one folding mode
(positioning mode) enabling placement of articles on the shelves and another folding
mode (closed mode) consuming a volume smaller than the volume of said first folding
mode. Preferably, the open folding mode separates between said back part and said
ladder part and the closed folding mode bring the back part and the ladder part closer
to preserve space.
[0172] Preferably, ladder part 55 is made of a rigid material and the envelop part 49, and
optionally the shelves 53 too, are made of a light, thin and optionally flexible material
such as multiwall structure of polypropylene material.
[0173] Optionally, the ladder part 55 includes a rigid vertical part 56, and a rigid horizontal
part 57 made from a vertically flat material such as multiwall structure of polypropylene
material. Therefore, the display system may include a ladder part, and/or an envelop
part, and/or a shelve part made of a multiwall structure of polypropylene material
or any other type of plastic sheet or plastic board.
[0174] As shown in Figs. 66B, 67 and 69A to 69D the envelop part 49 preferably includes
a plurality of slots 52, and the shelves 53 preferably includes flaps or tabs 54 that
are insertable into the slots 52. As shown in Figs. 69A and 69B, the flap 54 when
inserted into a slot 52 provides an axle 61 about which the shelf 53 may be rotated
relative to the envelop part 49 to enable upward and/or downward folding of the shelves
as well as the entire display system 50 as further shown in Figs. 70A and 70B.
[0175] As shown in Figs. 30-33, 36, 42, and Fig. 45, the display system preferably includes
at least one fastener part such as elements 26, 30, and 34 (respectively). The fastener
parts are used for fastening the envelop part to the ladder part, preferably at the
joints. Such fastener parts may have the shape of a rivet, a slotted spring pin, a
bayonet type clamp, a magnet or a pair of magnets, etc.
[0176] As shown in Figs. 66A-66C, the display system includes an envelop part 49 that includes
a back part 51 and at least one side part 50 that is foldable with respect to the
back part. Preferably, the envelop is made of a multiwall of polypropylene board or
a similar material and a fold is provided between the back part and the side part
where the fold is made of a half-depth cut though the multiwall structure. Thus, the
fold enables folding the side part along the back part, and/or in parallel to the
back part, and/or forming an angle with the back part.
[0177] As shown in Fig. 68, the display system is constructed with connector parts (joints)
58 that may connect two vertical parts, and/or a vertical part and a horizontal part,
and/or a vertical part and an envelope part.
[0178] As shown in Figs. 35A - 38 and Figs. 41 - 48, the display system is constructed with
connector parts (joints) that can slide on the vertical part so that the horizontal
parts, and/or the shelves, can be positioned flexibly and continuously. It is appreciated
that such connector part may use a dovetail joint.
[0179] Reference is now made to Fig. 71, which is a simplified illustration of a ladder
and shelves according to a preferred embodiment of the present invention.
[0180] As shown in Fig. 71 as well as in Figs. 69B - 69C, the display system is constructed
so that the shelves 53 are positioned over the ladder part 55 to transfer the weight
of the article stored on the shelves to the horizontal parts 57 of the ladder part,
and the horizontal parts are coupled to transfer the weight to the vertical parts
56, and the vertical parts are positioned to transfer the weight to the floor.
[0181] It is expected that during the life of this patent many relevant methods and systems
will be developed and the scope of the terms herein, particularly of the terms "multiwall
structure", "polypropylene material", "board", "sheet", "plate", and "plane", are
intended to include all such new technologies a priori.
[0182] It is appreciated that certain features of the invention, which are, for clarity,
described in the context of separate embodiments, may also be provided in combination
in a single embodiment. Conversely, various features of the invention, which are,
for brevity, described in the context of a single embodiment, may also be provided
separately or in any suitable subcombination.
[0183] Although the invention has been described in conjunction with specific embodiments
thereof, it is evident that many alternatives, modifications and variations will be
apparent to those skilled in the art. Accordingly, it is intended to embrace all such
alternatives, modifications and variations that fall within the spirit and broad scope
of the appended claims. All publications, patents and patent applications mentioned
in this specification are herein incorporated in their entirety by reference into
the specification, to the same extent as if each individual publication, patent or
patent application was specifically and individually indicated to be incorporated
herein by reference. In addition, citation or identification of any reference in this
application shall not be construed as an admission that such reference is available
as prior art to the present invention.