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Claims  |
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I claim:
1. A display system comprising a display panel and at least one column,
said column being formed from a sheet of resilient material having
opposite edges disposed contiguous each other thereby imparting a
generally hollow interior to said column, first means for securing said
opposite edges to each other, second means for securing said column to
said display panel, means in said hollow interior for rigidifying said
column, and third means for securing said rigidifying means to said
column.
2. The display system as defined in claim 1 wherein said first securing
means include magnetic attractive securing means.
3. The display system as defined in claim 1 wherein said first securing
means includes clip securing means.
4. The display system as defined in claim 1 wherein said first securing
means includes magnetic attractive securing means and clip securing means.
5. The display system as defined in claim 1 wherein said second securing
means includes clip means carried by said column for engaging an edge of
said display panel.
6. The display system as defined in claim 1 wherein said second securing
means includes clip means carried by one of said column edges for engaging
an edge of said display panel.
7. The display system as defined in claim 1 wherein said third securing
means includes releasable hook tape means carried by said rigidifying
means and said column.
8. The display system as defined in claim 1 including first and second
elongated members secured to and reinforcing respective first and second
of said sheet opposite edges, and said first securing means is carried by
at least one of said first and second elongated members.
9. The display system as defined in claim 1 including first and second
elongated members secured to and reinforcing respective first and second
of said sheet opposite edges, and said first securing means are carried by
both of said first and second elongated members.
10. The display system as defined in claim 1 including first and second
elongated members secured to and reinforcing respective first and second
of said sheet opposite edges.
11. The display system as defined in claim 1 including first and second
elongated members secured to and reinforcing respective first and second
of said sheet opposite edges, and a third elongated member secured to and
reinforcing a longitudinal portion of said column generally diametrically
opposite said first and second elongated members.
12. The display system as defined in claim 1 wherein said rigidifying means
is a disk-like member.
13. The display system as defined in claim 1 wherein said rigidifying means
is a disk-like member, and said disk-like member includes a peripheral
edge having slot means for embracingly receiving said first securing
means.
14. The display system as defined in claim 1 wherein said rigidifying means
are a pair of disk-like members located one each at generally axially
oppositely ends of said column.
15. A stacked column particularly adapted for utilization as part of a
display system comprising first and second generally hollow columns each
having axially opposite top and bottom end portions, said first hollow
columns being stacked upon said second hollow column, each said columns
being formed from a sheet of resilient material having opposite edges
disposed contiguous each other thereby imparting a generally hollow
interior to each said columns, means for securing the opposite edges of
said first column to each other, means for securing the opposite edges of
said second column to each other, and a pair of means spanning between
said first and second column respective bottom and top end portions for
maintaining said columns axially aligned in their stacked relationship.
16. The stacked column as defined in claim 15 wherein said spanning means
includes a pair of pins.
17. The stacked column as defined in claim 15 wherein said spanning means
are disposed in generally diametrically opposite relationship to each
other.
18. The stacked column as defined in claim 15 wherein said spanning means
are disposed in generally diametrically opposite relationship to each
other interiorly of said hollow columns.
19. The stacked column as defined in claim 15 wherein said spanning means
includes a pair of pins, and said pair of pins are received in a pair of
sockets Of each of said columns.
20. The stacked column as defined in claim 17 wherein said spanning means
includes a pair of pins.
21. The stacked column as defined in claim 18 wherein said spanning means
includes a pair of pins.
22. The stacked column as defined in claim 19 wherein said spanning means
are disposed in generally diametrically opposite relationship to each
other.
23. The stacked column as defined in claim 19 wherein said spanning means
are disposed in generally diametrically opposite relationship to each
other interiorly of said hollow columns.
24. A display system sheet particularly adapted to be formed into a hollow
column of a display system comprising a generally resilient polygonal
member defined in part by opposite generally parallel edge portions
adapted to be brought into contiguous relationship to each other, at least
one elongated member secured along one of said edge portions, at least a
further elongated member secured to said polygonal member in generally
parallel relationship to said one member and generally midway between said
opposite parallel edge portions, and said one and further elongated
members are tubular.
25. The display system sheet as defined in claim 24 wherein said one and
further elongated members are tubular and are generally of a length
corresponding to the length of said parallel edge portions.
26. A display system sheet particularly adapted to be formed into a hollow
column of a display system comprising a generally resilient polygonal
member defined in part by opposite generally parallel edge portions
adapted to be brought into contiguous relationship to each other, at least
one elongated member secured along one of said edge portions, at least a
further elongated member secured to said polygonal member in generally
parallel relationship to said one member and generally midway between said
opposite parallel edge portions, an additional elongated member secured
along the other of said edge portions, and said elongated members are
tubular.
27. A display system sheet particularly adapted to be formed into a hollow
column of a display system comprising a generally resilient polygonal
defined in part by opposite generally parallel edge portions adapted to be
brought into contiguous relationship to each other, at least one elongated
member secured along one of said edge portions, at least a further
elongated member secured to said polygonal member in generally parallel
relationship to said one member and generally midway between said opposite
parallel edge portions, an additional elongated member secured along the
other of said edge portions, and means for securing said one and
additional elongated members to each other.
28. A display system sheet particularly adapted to be formed into a hollow
column of a display system comprising a generally resilient polygonal
member defined in part by opposite generally parallel edge portions
adapted to be brought into contiguous relationship to each other, at least
one elongated member secured along one of said edge portions, at least a
further elongated member secured to said polygonal member in generally
parallel relationship to said one member and generally midway between said
opposite parallel edge portions, an additional elongated member secured
along the other of said edge portions, and magnetic means for securing
said one and additional elongated members to each other.
29. A stacked column particularly adapted for utilization as part of a
display system comprising first and second generally hollow columns each
having axially opposite top and bottom end portions, said first hollow
columns being stacked upon said second hollow column, each said columns
being formed from a sheet of resilient material having opposite edges
disposed contiguous each other thereby imparting a generally hollow
interior to each said columns, means for securing the opposite edges of
said first column to each other, means for securing the opposite edges of
said second column to each other, and means spanning between said first
and second column respective bottom and top end portions for maintaining
said columns axially aligned in their stacked relationship. |
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Claims |
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Description |
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BACKGROUND OF THE INVENTION
The invention is directed to display systems which are portable, free
standing and can be readily erected, reconfigured, knocked-down, packed
and transported for display at sales presentations, press conferences,
seminars, etc. The display system of the present invention is designed to
provide a large architectural atmosphere without sacrificing portability,
and doing so through the utilization of stately columns and contemporary
curves which provide a spacious three dimensional presence with the
flexibility of being easily reconfigured into larger or smaller free
standing displays or tabletop displays. The display system includes at
least two columns spanned by a display panel, although for larger display
panels the columns can be stacked resulting in a corresponding increase in
the display panel area therebetween. The columns of the present display
system avoid the general complexities of many display systems,
structurally and aesthetically improve performance of folding panel
display systems and in doing so keep erection of the display system
simple, requiring no tools, and with a minimum number of parts all of
which are extremely light-weight and packed flat or rolled to
substantially smaller compact proportions for storage and shipment.
SUMMARY OF THE INVENTION
The display system includes at least one display panel and a column at each
edge secured to the display panel with each column being formed from a
sheet of resilient material having opposite edges disposed contiguous each
other thereby imparting a generally hollow configuration to each column. A
generally hollow tubular elongated member is secured to each opposite edge
of the sheet and to a portion of the sheet approximately midway between
the sheet opposite edges. Therefore when the sheet is disposed with its
edges contiguous to each other, two of the tubular elongated members are
adjacent each other and the third is generally diametrically opposite
thereto. The adjacent or contiguous tubular elongated members are secured
to each other by, for example, magnetic strips and/or plastic spring clips
and another generally U-shaped elongated member is secured to one of the
sheet edges for securing each column to an associated edge of an
associated display panel. In this fashion two relatively flat sheets of
resilient material can be each formed into a column with each column being
then secured to opposite vertical edges of a central display panel thereby
forming an aesthetic display system.
In order to increase the overall size of the display system, an additional
column (or more) can be stacked upon the first two described columns and
another panel spanned therebetween. When the columns are stacked,
preferably pins are introduced into opposing adjacent ends of the tubular
elongated members of the upper and lower columns to maintain the stacked
columns axially aligned and stable.
While the tubular elongated members impart rigidity to the columns,
additional rigidity can also be imparted thereto by inserting one or more
circular disks into each column. Preferably a plastic circular disk is
inserted into each column at each of opposite axial ends thereof. Each
disk is preferably removably secured within each column by hooked tape
(VELCRO.RTM.). Furthermore, a periphery of each disk has slots or notches
which embrace the tubular elongated members which effectively aligns the
securement hook tapes carried by each disk and the interior of the column
and additionally assures integrity, compression strength and the desired
configuration of each column by preventing displacement of each disk
relative to its desired position within its associated column.
With the above and other objects in view that will hereinafter appear, the
nature of the invention will be more clearly understood by reference to
the following detailed description, the appended claims and the several
views illustrated in the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view of a novel display system of the present
invention and illustrates two pairs of stacked columns and a folding panel
display therebetween.
FIG. 2 is a perspective view of one of the four identical columns
illustrated in FIG. 1, and illustrates the manner in which the same is
constructed from a sheet of polygonal resilient material having three
tubular elongated members secured to one side of the sheet and a generally
U-shaped elongated member secured to an opposite side of the sheet with
the sheet being illustrated in a partially curved configuration.
FIG. 3 is an exploded view of a column constructed from the sheet of FIG.
2, and illustrates opposite edges of the sheet brought into contiguous
relationship with each other, secured together, and two disks prior to
being inserted within and secured to upper and lower end portions of the
column.
FIG. 4 is an enlarged fragmentary cross sectional view taken generally
along line 4--4 of FIG. 3, and illustrates magnetic strips carried by two
of the tubular elongated members securing the edges of the sheet together
and a plastic U-shaped clip spanning and clamped to the pair of tubular
elongated members.
FIG. 5 is a fragmentary perspective view of the area of the column
illustrated in FIG. 4, and illustrates the manner in which the plastic
clip is aligned prior to being clipped to the magnetically secured tubular
elongated members.
FIG. 6 is a fragmentary perspective view with portions broken away for
clarity of the left hand stacked columns of FIG. 1, and illustrates pins
associated with the diametrically opposite tubular elongated members for
interlocking the stacked columns in axially aligned relationship.
FIGS. 7-9 are schematic cross sectional views of three additional columns
constructed in accordance with this invention, but in lieu of the circular
cross section of the columns of FIGS. 1-6, the columns of FIGS. 7-9 are
respectively of square, hexagonal and octagonal cross sectional
configurations.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
A novel display system constructed in accordance with this invention is
fully illustrated in FIG. 1 of the drawings and is generally designated by
the reference numeral 10.
The display system 10 includes four identical columns 11-14 with each
column being of a generally cylindrical configuration. As is apparent from
FIG. 1, the columns 11 and 12 are stacked relative to each other in
axially aligned relationship, as are the columns 13 and 14.
A foldable or folding panel display or display panel 15 is in spanning
relationship to the stacked columns 11, 12 and 13, 14. The folding panel
display 15 is of a conventional construction and includes eight
rectangular panel portions (unnumbered) and associated fold lines (also
unnumbered) for permitting the folding panel display 15 to be folded
relatively flat, packed for shipping purposes, unpacked and unfolded to
the configuration shown in FIG. 1. The columns 11-14 and the folding panel
display 15 are provided with appropriate designs, photomurals, graphics
and the like.
The column 11 is constructed from resilient paper or plastic material and
in a manner which is best shown in FIGS. 2-5 of the drawings, and the
manufacture, assembly and disassembly of the columns 12-14 is equivalent
thereto. Accordingly, the following description of the column 11 applies
equally to each of the columns 12-14.
The column 11 is preferably constructed from a sheet 20 of
polymeric/copolymeric synthetic material having a top edge portion 21
which is generally parallel to a bottom edge portion 22 and side or
lateral edge portions 23, 24 which are similarly parallel to each other
imparting a generally upright rectangular configuration to the overall
sheet 20. The sheet 20 is normally flat and is illustrated partially
curved in FIG. 2 only for purposes of describing the manner in which the
flat sheet 20 is eventually formed into the hollow cylindrical
configuration of the column 11 (FIG. 3). An exterior surface of the sheet
20 is designated by the reference numeral 25 while an interior surface of
the sheet 20 is designated by the reference numeral 26. Though not
illustrated, the exterior surface 25 is also provided with appropriate
graphics, designs, etc.
Three relatively identical tubular elongated members or tubes 27, 28 and 29
are secured to the inner surface 26 of the sheet 20 by adhesive or in any
other conventional manner. The tubular elongated member 27 is secured
along the edge 23 of the sheet 20 and the elongated tubular member 29 is
secured to the edge 24. The tubular elongated member 28 is secured at a
point approximately midway between the tubular elongated members 27, 29
and parallel thereto. Due to the latter construction and dimensioning,
when the elongated tubular members 27, 29 are brought into contiguous
and/or touching relationship with each other by curving the sheet 20 from
its flat/planar configuration (not shown) through the partial curvature
shown in FIG. 2 toward the final cylindrical configuration shown in FIG.
3, the tubular elongated member 28 is generally diametrically opposed to
the tubular elongated members 27, 29 (see FIG. 3).
Means are provided for securing the sheet 20 in the cylindrical
configuration shown in FIG. 3, namely, respective magnetic strips 37, 37
(FIG. 4) secured to opposing surfaces (unnumbered) of the respective
tubular elongated members 27, 29. The magnetic strips 37, 37 are obviously
magnetically attractive to each other and thereby secure the edges 23, 24
of the sheet 20 contiguous each other, as is clearly evident in FIG. 5 of
the drawings. However, one or more generally shallow U-shaped plastic
spring clips 30 can be clipped in spanning relationship to the tubular
elongated members 27, 29 adjacent the upper and lower edges 21, 22,
respectively, of the column 11, as is best illustrated in FIGS. 3 and 4 of
the drawings. Essentially the clips 30 have legs (unnumbered) which are
slightly closer together than the distance between the opposite faces
(unnumbered) of the tubular elongated members 27, 29, and thus when pushed
thereon in the manner indicated by the unnumbered headed arrows associated
therewith in FIG. 5, retain the tubular elongated members 27, 29 in
clamped securement thereby augmenting the securement effected by the
magnetic strips 37, 37.
A generally U-shaped securing bar 35, which is also of relatively elongated
construction, is suitably secured to the surface 25 of the sheet 20 along
the edge 24, as is best illustrated in FIG. 4 of the drawings. Each
generally U-shaped securing member or bar 35 receives an associated edge
(unnumbered) of the panel display 15, as is most apparent in FIGS. 1 and 6
of the drawings, and thereby maintains the folding panel display 15 in its
upright erected position (FIG. 1).
While the column 11 is relatively rigid and stable due to the elongated
tubular members 27-29, the column 11 is further rigidified by a pair of
identical disks 40, 41 constructed of plastic, paper or similar material.
The disks 40, 41 are each contoured to the circular configuration of the
interior surface 26 of the column 11 and a peripheral edge 42 of each is
provided with generally diametrically opposite radially outwardly opening
slots 43, 44, the latter being larger than the former to slidably
confineably embrace the respective tubular elongated members 28 and 27,
29, respectively. A plurality of hooked tape means 45, 46, such as
VELCRO.RTM. tape, are provided along the peripheral edge 42 of each disk
40, 41 and along the interior surface 26 at the top and bottom edge
portions 21, 22 of the column 11, respectively. The hooked tapes 45, 46
are spaced arcuately to align with each other and such alignment is
assured by the engagement of the slots 43, 44 with the respective tubular
elongated members 28 and 29, 30. Thus, to assembly the disks 40, 41 within
the column 11, the slots 43, 44 are simply aligned with the respective
tubular elongated members 28 and 29, 30, the disks are slid axially
inwardly, and the hooked tapes 45, 46 are now in alignment and need but be
pressed together to fix the disks 40, 41 in position adjacent to
respective upper and lower edges 21, 22, respectively. A central circular
opening 48 in each disk 40, 41 is of a size to permit the disks 40, 41 to
be manually gripped for purposes of insertion and removal. However, when
the disks 40, 41 are firmly secured by the hooked tapes 45, 46 adjacent
the end portions or edges 21, 22 of the column 11, the latter is extremely
rigid and distortion of the cylindrical configuration of the column 11
under axial or sidewise loading or forces is virtually precluded.
Furthermore, for relatively vertically short displays or table-top
displays, an imperforate decorative circular cover can be seated atop the
disk 40 for aesthetic purposes.
As is most evident from FIG. 1 of the drawings, the columns 11, 12 are
stacked upon each other such that the U-shaped bars 35 are aligned to
receive the edge (unnumbered) of the panel display 15 and the same is true
of the U-shaped channels 35 of the columns 13, 14. In this fashion the
display system 10 is self supporting and sustaining. However, it is also
within the scope of this invention to provide means for effecting axial
alignment and stacked interlock between the columns 11, 12 and 13, 14,
respectively, and this is performed by means 50 (FIG. 6) in the form of
relatively long pins 50, one of which is inserted into the tubular
elongated members 28 of the stacked columns 11, 12 and 13, 14, and the
other of which is inserted into either one of the aligned tubular members
27 or 29 of the stacked columns 11, 12 and 13, 14. In this fashion the
stacked columns 11, 12 are effectively locked at diametrically opposite
points, as is most readily apparent from FIG. 6, and inadvertent
disassembly of the stacked condition shown in FIG. 1 is precluded whereas
disassembly is readily achieved by simply telescopically disuniting the
respective pairs of columns 11, 12 and 13, 14.
Reference is now made to FIGS. 7-9 of the drawings which illustrate three
columns 71, 81 and 91, respectively. The construction of the columns 71,
81, 91 is identical to that described relative to the column 11 except
that the axial cross sectional configurations thereof are respectively
polygonal/square, hexagonal and octagonally.
Although a preferred embodiment of the invention has been specifically
illustrated and described herein, it is to be understood that minor
variations may be made in the apparatus without departing from the spirit
and scope of the invention, as defined in the appended claims.
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Description |
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