[0001] This invention relates to multi-wall paper sacks - a multi-wall paper sack being
defined for the purposes of this specification as one having one or more walls.
[0002] It is known for paper sacks to be used for flour (or other granular or particulate
material, hereinafter comprised within the term "flour") intended to be used for human
consumption. Such sacks commonly have so-called "pasted bottoms", by which is meant
that the bottoms of the sacks are stuck down with paste or other adhesive. It is also
known for such sacks to be designed so that the bottoms of the sacks can be readily
torn open to pour out the flour. It is important for the flour not to be contaminated
by the adhesive or by torn paper fragments and for the flour not to come into contact
with any foreign thing or object or any part of a person, such as the hands, when
the sack is opened..
[0003] It is an object of the invention to provide a paper sack having a pasted bottom and
suitable for sacking flour intended for human consumption.
[0004] This is not to be interpreted as excluding other possible uses for the sack.
[0005] According to the invention, there is provided a sack as claimed in claim 1, to which
reference is directed.
[0006] The invention will be described by way of example with reference to the drawings,
wherein: -
FIG. 1 illustrates a paper tube after a first, conventional, opening-out-and-folding
step has been performed in the conversion of the tube into a sack embodying the invention,
and showing where the next fold is to be made in accordance with the invention;
FIG. 2 shows the tube after the next fold has been made and showing where the fold
after that, the penultimate fold, is to be made;
FIG. 3 shows the tube after the last-mentioned, penultimate, fold has been made and
showing a pasted label applied; and
FIG. 4 is a view corresponding to Fig. 3 from the other side of the sack and showing
the position of the final fold.
[0007] Referring to the drawings, the sack embodying the invention is a two-sided sack,
made accordingly from a two-sided paper tube A, one side B of which (the "face", see
Fig. 4) is joined directly to the other side C thereof (the "reverse side" or "seamed
side", see Figs. 1 - 3) along two side edge folds D and E. Figs. 1 - 3 show the seam
F of the reverse, or seamed, side C. The paper tube A is actually double walled, that
is, formed by two separate paper tubes, one slightly smaller than, and inside, the
other, but these two separate tubes are not shown as such. The drawings depict the
double-walled tube A as if it were a single-walled tube. The bottom of the tube A
is cut straight across with a "flush" cut, that is, with the bottom edges of the inner
and outer tubes flush with each other and with the bottom edge G of the face B flush
with the bottom edge H of the reverse side C.
[0008] Conventional paper sack-making machinery (not shown) is used to open-out and fold
the paper tube A into the conventional, intermediate form shown in Fig. 1, with two
mutually identical, trapezium-shaped flaps J and K.
[0009] The trapezium-shaped flap J is formed (wholly out of a part of the face B) by a trapezium-shaped
panel J1, the edges of which extend between points a-b-c-d-g-h-a, and two halves J2
and J3 (those extending between points a-b-h-a and between points d-c-g-d) of two
respective triangular panels L1 and L2, defined by points a-b-h-f-a and by points
d-c-g-e-d respectively.
[0010] The trapezium-shaped flap K is formed (wholly out of a part of the reverse side C)
by a trapezium-shaped panel K1, the edges of which extend between points a-f-e-d-g-h-a,
and two halves K2 and K3 (those extending between points a-f-h-a and between points
d-e-g-d) of the aforesaid two respective triangular panels L1 and L2.
[0011] The bases a-h-g-d of the two trapezium-shaped flaps J, K are closely adjacent each
other.
[0012] It will be understood that panels L1 and L2 adjoin panel J1 along 45° folds i and
j respectively and adjoin panel K1 along corresponding 45° folds k and I respectively.
[0013] The top of the tube A is shown in Figs. 1 and 2 as torn off from point m on side
edge fold D to point n on side edge fold E. In Figs. 3 and 4 somewhat more is shown
torn off between corresponding points m' and n'. As is well known in sack-making,
the two flaps J and K are mutually co-planar and could, unless inhibited, be pivoted
about an axis a-h-g-d relative to the part of the tube A that extends up to points
m and n from the aforesaid axis a-h-g-d. However, no such pivoting has any chance
of occurring in the sack-making machinery as the sack tube proceeds through the successive
folding steps described herein.
[0014] Other points to be mentioned with reference to Fig. 1, before proceeding with the
description of subsequent folding with reference to Figs. 2 - 4, are: -
the bottom edges G and H of face B and reverse side C respectively are folded as shown
in Fig. 1, where the 45° folds i, j, k and I respectively meet the edges G and H,
leaving intermediate portions G3, H3 of the bottom edges G, H parallel to the bases
a-h-g-d of the two trapezium-shaped flaps J, K but leaving side portions G1, G2, H1
and H2 perpendicular thereto. These edge portions G1-3, H1-3 border a rectangular
area, defined by points b-c-g-e-f-h-b, which is actually an inside surface portion
Bi of face B and an inside surface portion Ci of reverse side C and is in close contact
with the flour when the sack is used; no adhesive must contact the flour, as mentioned
earlier.
[0015] Two strips of adhesive paste M and N, each shaped as an elongate trapezium, are put
onto the two half-panels J2 and J3 respectively as shown in Fig. 1. Inner ends Ml,
Nl of these adhesive strips terminate just short of bottom edge portions G1, G2, to
avoid contact with the flour. Outer ends M2, N2 terminate just short of a fold line
O, shown by a broken line in Fig. 1, which is the location of the next fold to be
made, as will now be described with reference to Fig. 2. Fold line O intercepts fold
i (a-b) at point o and fold I (d-e) at point p.
[0016] The next step is to fold flap J upwardly on fold O, as shown in Fig. 2. This brings
adhesive strips L and M into effective adhering contact with those parts of triangular
panels L1 and L2 which are on the far side of fold O. Bottom edge portion G3 is thereby
brought closer to bottom edge portion H3, an aperture P being defined by the rectangle
defined by points b-c-e-f-b. Eventually when the flour-filled sack is torn open to
empty the flour, the flour will flow out of the sack through the aperture P, which
is thus an outlet aperture.
[0017] The next fold line Q is below bottom edge portion G3 but above points a and d as
seen in Fig. 2. It will be observed that the inner ends M1, N1 of adhesive strips
M and N project slightly across the fold line Q.
[0018] Figs. 3 and 4 illustrate the sack preform, if it may be called that by this stage,
after the flaps J and K have been folded downwardly on fold Q and after a rectangular,
fully pasted (i.e. adhesive-coated) paper sheet, or "end label", R has been applied
over flap K. The 45° folds i and k cross over at point q, whilst the 45° folds j and
1 cross over similarly at point r. Preferably points a, q, r and d are in alignment
with each other. The label R is made to have a length q-r (that is, equal to the distance
between points q and r) and a width equal to the distance between fold Q and edge
portion H3, and is positioned accordingly to just touch points q and r and to be flush
with fold Q and edge portion H3.
[0019] The fold Q is in the opposite direction to the fold 0.
[0020] Fig. 4 shows edge portions of flap K and label R projecting just below fold O. The
only exposed adhesive is on side edge portions R1 and R2 of label R, projecting to
the sides of flap K. There is no adhesive on flap K. The final step in forming the
pasted bottom on the sack is to fold these projecting edge portions around fold O
and stick down the side edge label portions R1 and R2. Fig. 4 shows the final positions
thereof in chain-dot lines, immediately above fold O. Given that the only adhesive
is on portions R1, R2, it will be appreciated that a gap exists, or can be easily
opened up, along edge portion H3 between points e and f, as shown at S, where one
can insert one's hand and pull the edge portions open again to the state shown in
full lines in Figs. 3 and 4, allowing the flour to be poured out of outlet aperture
P.
[0021] Although the paper tube A, from which the sack is made, is double-walled, so that
the sack is also double-walled, the invention may be embodied in a single-walled paper
sack or even a paper sack having three, or more, walls.
1. A paper sack having a first side (B) joined directly to a second side (C) along two
side edge folds (D, E) and having a pasted bottom formed from first and second trapezium-shaped
flaps (J, K) formed by an opening-out and folding step;
the two said flaps (J, K) comprising two respective trapezium-shaped panels (J1,
K1) formed, the first one from part of said first side (B) and the second one from
part of said second side (C);
each said flap (J, K) also comprising two respective halves (J2, J3; K2, K3) of
two triangular panels (L1, L2;) which adjoin said trapezium-shaped panels (J1, K1)
along four 45° folds (i, j, k, l);
the bases (a-h-g-d) of the two trapezium-shaped flaps being closely adjacent each
other;
a bottom edge (G, H) of each side (B, C) having an intermediate portion (G3, H3)
parallel to the bases (a-h-g-d) of the two said flaps (J, K) and two side portions
(G1, G2, H1, H2) perpendicular thereto;
the first flap (J) being folded on a first one (O) of three further folds (O, Q,
O) to bring the intermediate bottom edge portion (G3) of said first side (B) closer
to the intermediate bottom edge portion (H3) of said second side (C);
adhesive (M, N) causing to be adhered together facing portions of said two triangular
panels (L1, L2) between said first one (O) and a second one (Q) of said three further
folds;
an outlet aperture (P) being defined by a rectangle (b-c-e-f-b) formed by the two
intermediate bottom edge portions (G3, H3) and by parts of the two side portions (H1,
H2) of the bottom edge (H) of said second side (C);
there being no adhesive in the immediate vicinity of said outlet aperture (P);
the two said flaps then being folded in an opposite direction about the second
one (Q) of said three further folds, said second one (O) of said three further folds
being between the intermediate bottom edge portion (G3) of said first side (B) and
the bases (a-h-g-d) of the two trapezium-shaped flaps (J, K), to bring an edge portion
of the second trapezium-shaped flap (K), but no portion of the first trapezium-shaped
flap (J), across the first one (O) of said three further folds (O, Q, O);
an adhesive-coated sheet (R) being applied over said second trapezium-shaped flap
(K);
and edge portions of said second trapezium-shaped flap (K) and said sheet (R) being
folded in the third one (O) of said three further folds about said first one (O) of
said folds, in the same direction as the second one (Q) of said folds, stuck down
adhesively by side edge portions of said sheet (R).
2. A paper sack as claimed in claim 1, wherein said first side (B) is a face of the sack
and the second side (C) is a seamed side or reverse side of the sack.
3. A paper sack as claimed in claim 1 or 2, wherein a small amount of adhesive (M1, N1)
is provided on the far side of said second fold (Q) from said first fold (O).
4. A paper sack as claimed in any preceding claim, wherein the sack has two or more walls,
with flush-cut ends.