Field of the Invention
[0001] This invention relates to gift boxes or cartons. It is more particularly concerned
with gift boxes that are formed from a sheet of paperboard or the like but which when
set up have th appearance of a gift-wrapped box.
Description of the Prior Art
[0002] Various attempts have been made to devise folding boxes which when set up have the
appearance of hand-wrapped boxes or packages. Hereinafter I refer to such cartons
or boxes as gift wrap boxes. Folding boxes, including the above-mentiond gift boxes,
are generally die-cut from a sheet of paperboard or the like as flat blanks. Their
shapes are maintained after they are properly folded by gluing or by interlocking
tabs or tabs in slots. The great majority of such gift boxes are formed with a separate
sheet of decorative wrapping paper attached to the flat box sheet at various locations
so that when the box blanks are folded into shape the wrapping paper covers the box
in a manner similar to that of a hand-wrapped package. To obtain the desired effect
the box blanks and the wrapping sheet are generally not coterminous. Examples of such
gift wrap boxes are disclosed in United States Patents 3,257,068 of June 21, 1966
to M. M. Wright, 3,343,750 of September 26, 1960 to J. D. Desmond, et al., 3,394,867
of July 30, 1968 to W. D. Gregg and 3,951,330 of April 20, 1976 to John D. Desmond.
[0003] A gift wrap box not requiring a separate sheet of wrapping paper but having the wrapper
design printed on the box would be less expensive than those of the above listed patents
and easier to fold on automatic folding machines. Very little appears to have been
done in this field. One such carton is disclosed in United States Patent No. 3,942,711'
of March 9, 1976 to John D. Desmond, et al. It is a tubular carton opening on an end
such as are generally used for bottles of liquor and the like.
Summary of Invention
[0004] The gift wrap box of my invention is made from a blank die-cut in the usual manner
from a sheet of paperboard or the like, one side of which carries an ornamental design
or color printed or otherwise applied to the unitary sheet. The term "otherwise applied"
is intended to include a laminated sheet, whether an outer lamination carries an ornamental
design or color applied before or after the laminating operation. In either case the
design or color need not extend beyond the blank, and may be omitted from those areas
which are not visible after the box is set up. The box folded from that blank ahs
a body portion and a cover portion, the body portion having a bottom panel, two opposite
sides and two opposite ends; the cover portion having a top, one or two sides, depending
on whether it is a one-piece or a two-piece box, and two opposite ends. The body and
cover portions of one-piece boxes are hinged between a side of the body portion and
the top of the cover portion. The ends of the cover and body portions of both types
of boxes are formed from extensions of the sides and the top and bottom, respectively.
[0005] In one embodiment of my invention the top and bottom panel extensions are folded
inwardly into isosceles triangles on diagonals from their inner corners to the mid-points
of their outer edges. The side extensions of the body portion are folded toward each
other and are preferably made long enough to overlap along a vertical line mid-way
between the sides. The bottom panel extension triangles are folded inwardly against
the overlapped side extensions. The cover portion is folded in the same way except
that the extensions of its side panel or panels extend only to the vertical lines
above mentioned. The top panel extension triangles are folded against those side panel
extensions. When the cover portion is closed against the body portion the corners
of the cover side panel extensions are inserted between the body portion triangles
and their underlying side extensions, thus aligning the apexes of the cover and the
body traingles to give the appearance of a hand-wrapped box.
[0006] In another embodiment of my box the bottom panel extensions are folded along diagonals
into isosceles trapezoids. The body portion side panel extensions may be cut with
a turnover flap on their upper edges and the upper edges of the body trapezoids are
turned over with those flaps, thus forming a stiffener in each edge. The top panel
extensions of the cover portion likewise fold into trapezoids. The side panel extensions
of the cover are cut with slots from their outside corners paralleling the diagonal
sides of the cover trapezoids but extending only about halfway along those diagonals.
When the cover portion is closed on the body portion the corners of those extensions
form tuck tabs which fit betweent he bottom panel trapezoids and the extensions of
the bottom side panels behind them. When the box is assembled, the cover and body
trapezoids may meet or overlap, thus giving the box ends the appearance of a hand-wrapped
carton.
[0007] In both embodiments of my article above summarized the folded triangles or trapezoids
of the cover and body ends are preferably glued to their underlying elements.
DRAWINGS
[0008]
Figure 1 is a plan of a paperboard blank which when folded forms a one-piece gift
wrap box of my invention.
Figures 2, 3, 4 and 5 are isometrics of the blank of Figure 1 after its first, second,
third and fourth stages of folding respectively.
Figure 6 is an isometric of the blank of Figure 1 folded into a box of my invention.
Figure 7 is an inside view of the bottom of the body portion of the box of Figure
6 showing one form of stiffener.
Figure 8 is a plan of a paperboard blank which when folded forms a second embodiment
of the one-piece gift box of my invention, showing a form of stiffener.
Figures 9, 10 and 11 are isometrics of the blanks of Figure 8 in its successive stages
of folding.
Figure 12 is an isometric of the blank of Figure 9 completely folded into a one-piece
gift box of my invention.
Figure 13 is a plan of a paperboard blank which when folded forms the body of a two-piece
gift wrap box of my invention.
Figure 14 is a plan of a paperboard blank which when folded forms the cover to a two-piece
gfit wrap box of my invention.
Figure 15 is an isometric of the body portion of the box of Figure 13 partially folded.
Figure 16 is an isometric of the cover of Figure 14 partially folded.
Figure 17 is an isometric of the body and cover of Figures 15 and 16 positoned for
assembly.
Figure 18 is an isometric of the body and cover of Figures 15 and 16 partially assembled.
Figure 19 is a plan of a paperboard blank which when folded forms the body of a second
embodiment of the two-piece gift box of my invention.
Figure 20 is a plan of a paperboard blank which when folded forms the cover of a second
embodiment of the two-piece gift box of my invention.
Figure 21 is an isometric of the partially folded blank of Figure 19.
Figure 22 is an isometric of the partially folded blank of Figure 20.
Figure 23 is an isometric of the blanks of Figure 19 and 20 completely folded into
body and cover respectively of the tw%-piece gift box of my invention.
Description by Reference to Drawings
One-Piece Gift Box
[0009] The blank of Figure 1 comprises a cover portion side panel 11, a cover portion top
panel 12, a body portion side panel 13, a body portion bottom panel 14 and an body
portion side panel 15. The cover and body portions are hinged at the common edge of
panels 12 and 13. Panels 11, 12, 13 and 14 have end extensions 17, 19, 21 and 23 repectively
on one side of the blank and end extensions 18, 20, 22 and 24 respectively on the
other side of the blank, all those extensions having a dimension crossways of the
blank half of that of their panels 11, 12, 13 and 14. Panel 15 has end extensions
25 and 26 respectively, each having a dimension crossways of the blank greater than
half of that panel 15. Panel extensions 25 and 26 have tongues 27 and 28 respectively
on thier edges adjoining panel extensions 23 and 24 respectively, extending more than
halfway across said panel extensions 23 and 24. Tongue 27 has a reduced width tip
29 and tongue 28 has a transverse slot 30 positioned halfway across panel 24, which
slot accepts tip 29 when my box is folded, constituting one form of stiffener, as
will be described hereinafter. The extensions 21 and 22 of panel 13 at each end have
tabs 31 and 32 respectively projecting from their outer edges and the extensions 25
and 26 of panel 15 each have slots 33 and 34 respectively positioned to accept tabs
31 and 32 respectively when my box is folded, as will be described hereinafter.
[0010] Areas 37 in panel extensions 19, 20, 23 and 24 are areas where glue is applied to
the faces of the extensions unexposed in Figure 1 and areas 38 in those panel extensions
are areas where glue is applied to the faces of the extensions exposed in Figure 1
before my box is folded an assembled. All the dividing lines between panels, and between
panels and extensions thereof are creased.
[0011] In Figure 2 all the odd numbered panel extensions have been folded 90 degrees upwardly
around the creased line common to them. The corners of panel extensions 19 and 23
have been folded inwardly 180 degrees about their respective creased diagonal lines
39, converting those panel exensions into isosceles triangles with apexes 41 and 43
respectively. Panel extension 20 have been folded in the same way, producing apex
42 thereon.
[0012] In Figure 3 the corners of panel extensions 24 have been folded inwardly 180 degrees
about their respective creased diagonal lines 39, converting panel extension 24 into
an isosceles triangle with an apex 44. Body side panel 13 has been folded upwardly
90 degrees about its edge common to bottom panel 14. Side extension 22 of panel 13
has also been folded 90 degrees inwardly about its edge common to panel 13 bringing
it upright and parallel to side extension 21. Side panel extension 18 has been folded
upright normal to side panel 11 and top panel extensions 19 and 20, now triangles,
are folded upright against side panel extensions 17 and 18 respectively. The apexes
41 and 42 of those triangles lie on the edges of panel extensions 17 and 18 respectively.
In the figure top panel 12 has been folded away from the uncompleted body portion
of my box to show the completed cover portion comprising panels 11, 12, 17, 18, 19
and 20.
[0013] The completed box with its cover partially raised is shown in Figure 4. Panel extensions
24 and 26 have been folded upright and side panel 15 has been folded upright around
its edge common to bottom panel 14. That folding permits tab 31 to enter slot 33 in
panel extension 25 and also permits tab 32 to enter slot 34 in panel extension 26.
The apex 44 of triangles 24 lies on the body portion between panel extensions 22 and
26, which is also the preferred location of the slot 34.
[0014] The box with its cover nearly closed is shown in Figure 5. AS its cover is brought
down, the outside corner of side panel 18 is inserted between triangular panel 24
and side panel extension 26. The corner of side panel extension 17 likewise is inserted
between triangular panel 23 and side panel extension 25 on the other side of Figure
5, not shown. Figure 6 illustrates the completely closed box. The apexes 42 and 44
of triangles 20 and 24 meet, giving the ends of the box the appearance of a hand wrapped
package.
[0015] Figure 7 illustrates the stiffeners formed against the bottom 14 on my box by tongues
27 and 28. The tip 29 of tongue 27 enters the slot 30 of tongue 28. The purpose of
the stiffener is to brace the two composite end walls of the body portion. Other stiffening
arrangements may be employed.
[0016] A second embodiment of the one-piece box of my invention is suitable for relatively
flat boxes. Figure 8 shows the box blank comprising cover side panel 51, top panel
52, body side panel 53, bottom panel 54 and body side panel 55. Panel 51 has extensions
57 and 58 respectively at each end; each extension having diagonal slot 56 running
from its outside corner about halfway along its diagonal. Panel 52 has end extensions
59 and 60. Panel 53 has end extensions 61 and 62 formed with tabs 67 and 68 respectively
on their side edges. The adjoining corners of extensions 59 and 60 are cut away diagonally
to accommodate those tabs. Bottom panel 54 has end extensions 63 and 64 respectively
and body side panel 55 has end extensions 65 and 66 with tabs 69 and 70 correpsonding
to extensions 61 and 62 previously described. Extensions 61, 62, 63, 64, 65 and 66
are of the same length and extend beyond extensions 57, 58, 59 and 60, whicha re all
of the same length, to provide stock for edge stiffeners, as will be described. Cover
and body portions are hinged along the edge common to panels 52 and 53. Extensions
59, 60, 63 and 64 are creased diagonally along lines 71 from their inside corners.
Extensions 63 and 64 are creased parallel to their bottom panel boundaries on lines
73 and 74 respectively, spaced from the adjoining edges of bottom panel 54 a distance
equal to that of the outer edge of extension panels 59 and 60 from the adjoining edges
of top panel 52, plus allowance for folding. Creased line 73 and 74 are the same length
except for the folding allowance as the outer edges of extension panels 59 and 60
between their scored diagonal lines 71 and are bounded at each end by scored diagonal
lines 71 previously mentioned. Lines 75 are creased normal to the outer edge of extension
panel 63 from the ends of creased line 73, and lines 76 are likewise creased normal
to the outer edge of extension,panel 64 from the ends of creased line 74.
[0017] The first step in erecting my box from the blank of Figure 8 is shown in Figure 9.
The corners of extension panels 59, 60, 63 and 64 are folded 180 degrees inwardly
along creased diagonal lines 71. That folding of panels 63 and 64 aligns creased lines
75 with creased line 73 and creased lines 76 with creased line 74 so as to form flaps
77 and 78 respectively extending from creased lines 73 and 74. Panel extensions 57,
59, 61, 63 and 65 are folded 90 degrees inwardly about their common boundary with
panels 51, 52, 53, 54 and 55 respectively. Tabs 69 and 70 are folded inwardly 90 degrees
about their respective boundaries with panel extensions 65 and 66. Flap 77 is folded
90 degrees inwardly about creased line 73.
[0018] The next step in erecting the box is shown in Figure 10. Panel extensions 58, 60,
62, 64 and 66 are folded upwardly 90 degrees. Cover sidepanel 51 together with extensions
57 and 58 is folded upwardly along its edge common to top panel 52. Body side panel
53 is folded upwardly 90 degrees along its edge common to bottom panel 54, bringing
panels 51 and 52 and their extensions with it. Flap 78 is folded inwardly 90 degrees
around line 74. Extensions 61 and 62 of side panel 53 are folded inside panels 63
and 64 respectively and their tabs 67 and 68 are folded 90 degrees inwardly beneath
flaps 77 and 78 respectively. Body side panel 55 is folded 90 degrees upwardly about
its edge common to panel 54 and its extensions 65 and 66 are likewise folded inside
panels 63 and 64 respectively and their tabs 69 and 70 are folded inwardly beneath
tabs 77 and 78. In this way an open box is formed.
[0019] My box so formed is closed as shown in Figures 11 and 12 by folding top panel 52
90 degrees inwardly about its edge common to side panel 53. Top panel extensions 59
and 60, now folded into isosceles trapezoids, come down outside bottom panel extensions
63 and 64 respectively. Panel extensions 57 and 58 are slotted as mentioned so as
to form tuck tabs 79. Slots 56 are co-extensive throughout their lengths with the
diagonals 71 of adjoining end extensions 59 and 60 when the latter are folded as shown
in Figure 10, and tuck tabs 79 are inserted under the trapezoidal bottom panel extensions
63 and 64 but over body side panel folded extensions 65 and 66 respectively, thus
locking the box in the configuration shown in Figure 12. The overlapping trapezoidal
end extensions 60 and 64 on the end shown and 59 and 63 on the other end not shown
give my box the appearance of a hand-wrapped package.
Two-Piece Gift Box
[0020] The body portion blank of Figure 13 comprises a body side panel 83, a bottom panel
84, and a second body sidepanel 85. Panels 83, 84 and 85 have end extensions 91, 93
and 95 respectively on one side of the blank and end extensions 92, 94 and 96 respectively
on the other side of the blank. Extensions 91, 92, 93 and 94 have a dimension crosswise
of the blank half of their respective panels 83 and 84. Panel 85 has end extensions
95 and 96 respectively each having a dimension crosswise of the blank greater than
half of their panel 85. Panel extensions 95 and 96 have tongues 97 and 98 respectively
on their edges adjoining panel extensions 93 and 94 respectively extending more than
halfway across said panel extensions 93 and 94. Tongue 97 has a reduced width tip
99 and tongue 98 has a transverse slot 100 positioned halfway across panel 94 which
slot accepts tip 99 when my box is folded, as has been described hereinbefore. The
extensions 91 and 92 of panel 83 at each end have tabs 101 and 102 respectively projecting
from their outer edges and the extensions 95 and 96 of panel 85 each have slots 103
and 104 respectively positioned to accept tabs 101 and 102 respectively when my box
is folded, as will be described hereinafter.
[0021] My body portion above described is assembled by folding and gluing. As may be seen
in Figure 15, the junctions in my panels 83, 84 and 85 with each other and with their
respective extensions are creased, and diagonal lines 109 on extensions 93 and 94,
are creased. The corners of extensions 93 and 94 are folded over 180 degrees along
diagonal lines 109. Glue areas 108 on those corners are adhered to the underlying
portions of end extensions 93 and 94 respectively. The side panel extensions 91, 92,
95 and 96 are folded upwardly 90 degres along their junction with their respective
side panels 83 and 85. Side panel 83 is folded upwardly 90 degrees at its junction
with bottom panel 84 and folded-over corners of panels 93 and 94 are glued to their
adjoining side panel extensions are areas 107. Tongues 97 and 98 are folded inwardly
at their junction with extensions 95 and 96 so as to lie on bottom panel 84 and tongue
tip 99 is inserted in slot 100 so that the tongues form a stiffener as has been described
hereinbefore. Side panel 85 is folded upwardly 90 degrees around its junction with
bottom panel 84 and tabs 101 and 102 are inserted in slots 103 and 104 respectively.
The assembled body portion of my box is shown in Figure 17.
[0022] The cover portion blank of Figure 14 comprises a cover side panel 81, a cover top
panel 82 and a second side panel 86 attached thereto. The side and top panels 81,
82 and 86 have end extensions 87, 89 and 105 respectively at one end and 88, 90 and
106 respectively at the other end. The extensions extend half the longitudinal dimension
of panel 82. The outside corners of extension panels 105 and 106 are cut away diagonally
at 150 so as to leave square corners 151 and 152 of less depth than the inside corners
of the extension. The diagonal 150 has the same inclination as diagonals 109. The
junctions of panels 81 and 82 and 86 with each other and with their respective extensions
are creased, and diagonal lines 109 in end extensions 89 and 90 are creased. The cover
portion is assembled by folding and gluing, shown in Figure 16 in the same manner
as my body portion previously described, the glue being applied at areas 107 and 108
of panels 89 and 90 as is shown in Figure 14. The corners of top extensions 89 and
90 are folded over 180 degrees along diagonal lines 109. Side and top panel extensions
87, 88, 89, 90, 105 and 106 are folded 90 degrees at their junction and adjoining
areas are glued together, with fold-over panels 89 and 90 on the outside. The assembled
cover portion of my box is shown in Figure 17 in position to be assembled with the
body portion of my box.
[0023] My box is put together by moving cover and body assemblies toward each other vertically,
as indicated in Figures 17 and 18. The outside corners of side panel extensios 88
and 87 slide between turned-over panels 96 and 94 of one ned of the body portion and
95 and 93 of the other end of my body portion. Those elements of the body portion
are not glued together.
[0024] Panel 86 is then oflded toward panel 82 bringing the upper corners of side panels
105 and 106 inside triangular cover panels 89 and 90 respectively. As the angle between
panels 82 and 86 approaches 90 degrees the lower corners 151 are 152 of panels 105
and 106 are inserted between body panel extensions 91 and 93 on one side and 92 and
94 on the other side as is indicated in Figure 18. Diagonals 150 parallel the diagonal
109 of the body portion but the diagonal edges of panels 105 and 106 are cut to extend
below the diagonal folded edges 109 of body triangular panels 93 and 94, and the lower
or outside corners 151 and 152 of panels 105 and 106 form tuck tabs which hold the
cover in place on the bottom. The completely closed box duplicates in appearance the
one-piece box of Figure 6 previously described.
[0025] A second embodiment of my invention is suitable for relatively flat boxes. Figure
20 shows the box cover blank comprising cover side panel 121, top panel 122, and side
panel 120. Figure 19 shows the box body blank, comprising body side panel 123, bottom
panel 124 and body side panel 125. Panel 121 has extensions 127 and 128 respectively
at each end, each extension having a diagonal slot 126 running from its outside corner
about halfway along its diagonal. Panel 122 has end extensions 129 and 130. Panel
120 has end extensions 118 and 119. Panel 123 has end extensions 131 and 132 formed
with tabs 137 and 138 respectively on their side edges. Bottom panel 124 has end extensions
133 and 134 respectively and body side panel 125 has end extensions 135 and 136 with
tabs 139 and 140 corresponding to extensions 131 and 132 previously described. Extensions
131, 132, 133, 134, 135 and 136 are of the same length and extend beyond extensions
118, 119, 127, 128, 129 and 130, which are all of the same length. Extensions 129,
130, 133 and 134 are creased diagonally along lines 141 from their inside corners.
Extensions 133 and 134 are also creased parallel to their bottom panel boundaries
on lines 143 and 144 respectively, spaced from the adjoining edges of bottom panel
124 a distance equal to that of the outer edge of extension panels 129 and 130 from
the adjoining edges of top panel 122, plus allowance for folding. Creased lines 143
and 144 are the same length except for their folding allowance as the outer edges
of extension panels 129 and 130 between their scored diagonal lines 141 are bounded
at each end by scored diagonal lines 141 previously mentioned. Lines 145 are creased
normal to the outer edge of extension panel 133 from the ends of creased lines 143,
and lines 146 are likewise creased normal to the outer edge of extension panel 134
from the ends of creased line 144.
[0026] In erecting my box, the corners of extension panels 129, 130, 133 and 134 are folded
180 degrees inwardly along creased diagonal lines 141 as is shown in Figures 21 and
22. That folding of panels 133 and 134 aligns creased line 145 with creased line 143
and creased line 146 with creased line 144 so as to form flaps 147 and 148 respectively
extending from creased lines 143 and 144. Panel extensions 119, 127, 129, 131, 133
and 135 are folded 90 degrees inwardly about their common boundary with panels 120,
121, 122, 123, 124 and 125 respectively. Tab 140 is folded 90 degrees about its boundary
with panel extensions 136. Flap 147 is folded 90 degrees inwardly about creased line
143.
[0027] Panel extensions 118, 128, 130, 132,134 and 136 are folded upwardly 90 degrees. Cover
side panel 121 together with extensions 127 and 128 is folded upwardly along its edge
common to top panel 122. Body side panel 123 is folded upwardly 90 degrees along its
edge common to bottom panel 124, bringing panel extensions 131 and 132 and their tabs
with it. Flap 148 is folded inwardly 90 degrees around line 144. Extensions 131 and
132 of side panel 123 are folded inside panels 133 and 134 respectively and their
tabs 137 and 138 are folded 90 degrees inwardly beneath flaps 147 and 148 respectively.
Body side panel 125 is folded 90 degrees upwardly about its edge common to panel 124
and its extensions 135 and 136 are likewise folded inside panels 133 and 134 respectively
and their tabs 139 and 140 are folded inwardly beneath tabs 147 and 148. In this way
and open box body is formed, as is shown in Figure 23.
[0028] My box cover is formed by folding side panels 120 and 121 90 degrees inwardly about
their edges common to top panel 122. When the cover is placed on the body, top panel
extensions 129 and 130, now folded into isosceles trapezoids, come down outside bottom
panel extensions 133 and 134 respectively. Panel extensions 118, 119, 127 and 128
are slotted as mentioned so as to form tuck tabs 149. Slots 126 are co-extensive throughout
their lengths with the diagonals 141 of adjoining end extensions 129 and 130 when
the latter are folded as shown in Figure 23, and tuck tabs 149 are inserted under
the trapezoidal bottom panel extensions 133 and 134 but over body side panel folded
extensions 131, 132, 135 and 136 respectively in the same way that tuck tabs 79 are
inserted between panels 66 and 64 in Figure 11, thus locking the box in the configuration
shown in Figure 12. The overlapping trapezoidal end extensions on the end shown, and
on the other end not shown, give my box the appearance of a hand-wrapped package.
[0029] It is not essential that end extensions 130 and 134 overlap completely. When my box
is cut to form only a partial overlap of those panels, its end appearance is still
like that of a hand-wrapped package.
[0030] In the following claims I use the term "isosceles figures" to designate both isosceles
triangles and isosceles trapezoids.
[0031] In the foregoing specification I have described presently preferred embodiments of
my invention; however, it will be understood that my invention can be otherwise embodied
within the scope of the following claims.
1. A gift-wrap box having a body and cover of paperboard, the body having unitary
bottom and side panels with extensions folded over to form its ends, the cover having
unitary top and at least one side panels with extensions folded over to form its ends,
the top panel and bottom panel extensions being folded into isosceles figures, the
extensions of said at least one cover side panel overlapping said body side panel
extensions and underlapping said body isosceles figures.
2. The gift-wrap box of Claim I in which the isosceles figures are isosceles triangles.
3. The gift-wrap box of Claim 2 in which the externsions of the body side panels overlap
at the apexes of the body triangles.
4. The gift-wrap box of Claim 2 in which the extensions of the body side panels are
formed with tongue and slot interlocking means.
5. The gift-wrap box of Claim 2 in which the extensions of a body side panel have
tabs adapted to lie against the bottom panel of the body extending toward each other
and interlock so as to constitue a stiffener.
6. The gift-wrap box of Claim 2 in which the body ends are square.
7. The gift-wrap box of Claim 2 in which said body triangles and cover triangles meet
at their apexes.
8. The gift-wrap box of Claim 1 in which the isosceles figures are isosceles trapezoids.
9. The gift-wrap box of Claim 8 in which all diagonal folds are substantially at an
angle of 45 degrees.
10. The gift-wrap box of Claim 8 in which the depths of the cover member and body
member isosceles trapezoids are equal.
11. The gift-wrap box of Claim 8 in which the body isosceles trapezoids terminate
in a flap which is adapted to be folded inwardly over the inwardly folded extensions
of its sides.
12. The gift-wrap box of Claim 11 in which the extensions of the body side panels
have flaps on their upper edges which fold under the folded flaps of the bottom panel
extensions.
13. The gift-wrap box of Claim 1 in which the cover side panel extensions have diagonal
slots extending from their corners forming tuck tabs which interlock with the diagonal
folds of its body isosceles figures.
14. The gift-wrap box of Claim 1 in which cover and body are hinged together.
15. The gift-wrap box of Claim 14 formed from a unitary blank of paperboard.
16. The gift-wrap box of Claim 1 in which cover and body are separate members.
17. The gift-wrap box of Claim 16 in which the cover includes two side panels.
18. The gift-wrap box of Claim 17 in which one cover side panel is dimensioned to
fit inside a side panel of said body.