[0001] This invention relates to an improvement in flexible containers of the kind used
in storing and dispensing liquids or solid suspensions. In particular this invention
relates to an improvement in the containers described in Australian patent 519675
and pending application 79245/82.
[0002] Those specifications disclose a flexible container which includes a filling aperture,
defined by a collar which is also adapted to receive the dispensing tap for the container.
To enable the filling aperture to be sealed a flap is provided to cover the aperture
so that it can be heat sealed to the periphery of the aperture. This results in a
sealed package which is only ruptured by the insertion into the collars of a dispensing
tap which incorporates a spigot to break the flap sealing the aperture.
[0003] A difficulty encountered with the initial design was to ensure that the flap would
be correctly located over the aperture during the heat sealing operation. This problem
was overcome by heat sealing portions of the flap to the periphery of the aperture
at selected positions on two sides of the aperture.
[0004] An example of this construction is shown in figures 1 and 2 of the drawings. A portion
of the flexible container is shown in figure 1. The container is formed of two walls
2 and 4 welded together at seam 3. The container is filled and dispensed through the
aperture 7 which is defined by the gland 8. The wall 2 of the container is secured
to the outer surface of the flange 9 of the gland 8 and the aperture is covered by
the flap 5. This flap is heat sealed with small round seals 13 at a number of places
around the outer circumference of the inner surface of the flange 9. The edge 12 of
flap 5 is shown the schematic plan view of the aperture 7 in figure 2. The edge 14
of the flange 9 is also shown in figure 2. When the container is filled it is sealed
by the heat seal at line 15.
[0005] Although this arrangement ensures that the flap is correctly located about the aperture,
the presence of the flap restricts the flow of liquid through the aperture during
filling. It is possible to obtain adequate filling speeds by increasing the pressure
of the filling liquid on the flap. The presence of the flap also restricts the use
of the container for solid suspensions such as pineapple crush.
[0006] It is an object of this invention to overcome these problems.
[0007] To this end the present invention provides a flexible container sealed about its
edges, one wall of said container having an aperture through which the contents of
the container can be passed for filling or dispensing, a collar mounted in said aperture
said collar being adapted to receive means for dispensing the contents of said container
and a flap located inside the container covering said aperture and having a heat sealable
surface facing said collar and a non-heat sealable surface on the reverse side, said
flap being attached to said container or collar so that under filling conditions the
flap will form into a chute below said aperture to direct the contents into the container.
[0008] In a preferred embodiment the collar (or gland) has a large base flange and the flap
is secured to it by two divergent heat seal welds at locations on opposite sides of
the aperture. The welds form a chute which widens in a direction away from the centre
of the aperture. Although the flap abuts the collarflange and the aperture in its
prefilled state under filling conditions the flap and the collar flange will distend
to form a funnel approximately perpendicular to the axis of the collar. The diameter
of the funnel so formed is dependent on the position of the welds and these should
be placed to ensure that the diameter is at least equivalent to that of the collar.
[0009] A preferred form of this invention is illustrated in figures 3, 4 and 5 of the drawings
in which figure 3 is a plan view of the collar and flap, figure 4 is a sectional view
of the collar and flap during the fill operation and figure 5 is a perspective view
of figure 4.
[0010] The collar 21 is a polyethylene cylinder having a base flange 22 and a support flange
23 and location flange 24. Alternatively the collar can be formed from a modified
polyethylene such as polyethylene vinyl acetate. The collar is inserted into the aperture
of the wall of the flexible container which is heat sealed to the upper surface of
base flange 22. The support flange 23 provides support for the container during filling
when the collar is gripped and held below the filling nozzle. Usually the flexible
containers are placed in a rigid box when filled and the collar is inserted through
an aperture in a wall of the box and the wall locates between flanges 22 and 23 of
the collar 21. A dispensing tap is then inserted into the collar 21.
[0011] The flap 25 is secured to the under surface base flange 22 by welds 26 and 27. The
flap 25 abuts the flange 22 in the unfilled bag and after filling the flap is heat
sealed by a circular weld about the periphery of the aperture of collar 21. Any two
ply laminate which incorporates a non-heat sealing outer layer such as Polyester,
Nylon or Metal Foil, and a heat sealable inner layer of Polyethylene or modified Polyethylene
can be used for the flap 25.
[0012] The container may be formed from any flexible film or laminate, with or without a
loose inner layer, which can be satisfactorily heat sealed to form a container.
[0013] Generally laminates are of two ply construction incorporating an outer barrier layer
with the inner layer being polyethylene which may be modified to enhance its properties.
[0014] Sometimes a third layer of foil or a vacuum deposit of aluminium is sandwiched in
the laminate to provide a barrier to gases, water vapour and light.
[0015] The loose inner layer is always polyethylene, either natural or modified.
[0016] During filling as shown in figures 4 and 5 the pressure of the fluid passing through
collar 21 and impacting on flap 25 distends the flap 25 and the flange 22 to form
an elbow and spout which directs the flow of fluid into the interior of the container.
[0017] Unlike the construction shown in figures 1 and 2 the flow rate is not restricted.
An increase in filling speed from 1 litre per minute to 8.5 litres per minute has
been achieved with the construction of this invention.
[0018] Liquid at 50,000 cps, will require a head pressure of 280 cm of water to obtain a
flow rate of 1 litre/min with the conventional gland.
[0019] The new gland will achieve a flow rate of 6 litres/min at half the above head pressure
(140 cm of water).
[0020] Using a liquid of 6,000 cps, and 280 cm of water head pressure a flow rate of 1.6
litres/min was obtained with conventional gland, whilst only 15 cm of water head pressure
was required for the new gland to achieve the same flow rate.
[0021] Using liquids of 1 cps and 15 cm of water head pressure a flow rate of 1 litre/min
was obtained with the conventional gland and 8.5 litres/min with the new gland.
[0022] Furthermore it is now possible to fill the container with a solids suspension in
which the solid particles are up to 2/3 of the internal diameter of the collar. The
flap itself is no longer a restriction to the size of particles which can enter the
container.
1. A flexible container sealed about its edges, one wall of said container having
an aperture through which the contents of the container can be passed for filling
or dispensing, a collar mounted in said aperture said collar being adapted to receive
means for dispensing the contents of said container and a flap located inside the
container covering said aperture and having a heat sealable surface facing said collar
and a non-heat sealable surface on the reverse side, said flap being attached to said
container or collar so that under filling conditions the flap will form into a chute
below said aperture to direct the contents into the container.
2. A flexible container sealed about its edges, one wall of said container having
an aperture through which the contents of the container can be passed for filling
or dispensing, a collar mounted in said aperture said collar being adapted to receive
means for dispensing the contents of said container and a flap located inside the
container covering said aperture and having a heat sealable surface facing said collar
and a non-heat sealable surface on the reverse side, said flap being attached to said
container or collar by at least 2 divergent weld lines located on opposite sides of
said aperture which form a chute into said container.
3. A flexible container as claimed in claim 1 or 2 wherein the flap is formed from
a two ply laminate having the surface facing the collar format from polyethylene or
modified polyethylene and the reverse fasce formed from a non heat sealable film of
polyester, Nylon or metal foil.